boost_1_45_0/libs/spirit/doc/karma/auto.qbk - nest-learning-thermostat/5.0/boost - Git at Google

 [/==============================================================================
     Copyright (C) 2001-2010 Joel de Guzman
     Copyright (C) 2001-2010 Hartmut Kaiser

     Distributed under the Boost Software License, Version 1.0. (See accompanying
     file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
 ===============================================================================/]

 [section:auto Auto]

 [heading Description]

 This module includes the description of the `auto_` generator. This generator
 can be used to automatically create a generator based on the supplied attribute
 type.

 [heading Header]

     // forwards to <boost/spirit/home/karma/auto.hpp>
     #include <boost/spirit/include/karma_auto.hpp>

 Also, see __include_structure__.

 [heading Namespace]

 [table
     [[Name]]
     [[`boost::spirit::auto_  // alias: boost::spirit::karma::auto_`]]
 ]

 [heading Model of]

 [:__primitive_generator_concept__]

 [variablelist Notation
     [[`s`]      [A variable instance of any type for which a mapping to a
                  generator type is defined (the meta function
                  `traits::create_generator_exists` returns `mpl::true_`) or a
                  __karma_lazy_argument__ that evaluates to any type for which
                  a mapping to a generator type is defined (the meta function
                  `traits::create_generator_exists` returns `mpl::true_`).]]
 ]

 [heading Expression Semantics]

 Semantics of an expression is defined only where it differs from, or is
 not defined in __primitive_generator_concept__.

 [table
     [[Expression]           [Description]]
     [[`auto_`]              [Create a generator instance compatible with the
                              supplied attribute type and use it for output
                              generation. This generator never fails
                              (unless the underlying output stream reports an
                              error).]]
     [[`auto_(s)`]           [Create a generator instance compatible with the
                              supplied literal value. This generator never fails
                              (unless the underlying output stream reports an
                              error).]]
 ]

 [heading Additional Requirements]

 The `auto_` generators can be used to emit output for any data type for which
 a mapping to a generator type is defined (the meta function
 `traits::create_generator_exists` returns `mpl::true_`).
 The following table outlines the predefined mapping rules from the attribute type
 to the generator type. These rules are applied recursively to create the generator
 type which can be used to generate output from the given attribute type.

 [table
     [[Attribute type]   [Generator type]]
     [[`char`, `wchar_t`]      [`standard::char_`, `standard_wide::char_`]]
     [[`short`, `int`, `long`] [`short_`, `int_`, `long_`]]
     [[`unsigned short`, `unsigned int`, `unsigned long`]
                               [`ushort_`, `uint_`, `ulong_`]]
     [[`float`, `double`, `long double`] [`float_`, `double_`, `long_double`]]
     [[`short`, `int`, `long`] [`short_`, `int_`, `long_`]]
     [[`long long`, `unsigned long long`]
                               [`long_long`, `ulong_long`]]
     [[`bool`]                 [`bool_`]]
     [[Any string (`char const*`, `std::string`, etc.)]
                               [`string`]]
     [[Any (STL) container]    [Kleene Star (unary `'*'`)]]
     [[Any Fusion sequence]    [Sequence operator (`'<<'`)]]
     [[`boost::optional<>`]    [Optional operator (unary `'-'`)]]
     [[`boost::variant<>`]     [Alternative operator (`'|'`)]]
 ]

 It is possible to add support for any custom data type by implementing a
 specialization of the customization point __customize_create_generator__. This
 customization can be used also to redefined any of the predefined mappings.

 [heading Attributes]

 [table
     [[Expression]           [Attribute]]
     [[`auto_`]              [`hold_any`, attribute is mandatory (otherwise
                              compilation will fail)]]
     [[`auto_(s)`]           [__unused__]]
 ]

 [important The attribute type `hold_any` exposed by some of the `auto_`
            generators is semantically and syntactically equivalent to
            the type implemented by __boost_any__. It has been added to /Spirit/
            as it has better a performance and a smaller footprint if compared to
            __boost_any__.
 ]

 [note  In addition to their usual attribute of type `Attrib` all listed generators
        accept an instance of a `boost::optional<Attrib>` as well. If the
        `boost::optional<>` is initialized (holds a value) the generators behave
        as if their attribute was an instance of `Attrib` and emit the value stored
        in the `boost::optional<>`. Otherwise the generators will fail.]

 [heading Complexity]

 [:The complexity of the `auto_` generator depends on the attribute type. Each
  attribute type results in a different generator type to be instantiated which
  defines the overall complexity.]

 [heading Example]

 [note The test harness for the example(s) below is presented in the
       __karma_basics_examples__ section.]

 Some includes:

 [reference_karma_includes]

 Some using declarations:

 [reference_karma_using_declarations_auto]

 And a class definition used in the examples:

 [reference_karma_complex]
 [reference_karma_auto_complex]

 Some usage examples of `auto_` generators:

 [reference_karma_auto]

 [endsect]
	[/==============================================================================
	Copyright (C) 2001-2010 Joel de Guzman
	Copyright (C) 2001-2010 Hartmut Kaiser

	Distributed under the Boost Software License, Version 1.0. (See accompanying
	file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
	===============================================================================/]

	[section:auto Auto]

	[heading Description]

	This module includes the description of the `auto_` generator. This generator
	can be used to automatically create a generator based on the supplied attribute
	type.

	[heading Header]

	// forwards to <boost/spirit/home/karma/auto.hpp>
	#include <boost/spirit/include/karma_auto.hpp>

	Also, see __include_structure__.

	[heading Namespace]

	[table
	[[Name]]
	[[`boost::spirit::auto_ // alias: boost::spirit::karma::auto_`]]
	]

	[heading Model of]

	[:__primitive_generator_concept__]

	[variablelist Notation
	[[`s`] [A variable instance of any type for which a mapping to a
	generator type is defined (the meta function
	`traits::create_generator_exists` returns `mpl::true_`) or a
	__karma_lazy_argument__ that evaluates to any type for which
	a mapping to a generator type is defined (the meta function
	`traits::create_generator_exists` returns `mpl::true_`).]]
	]

	[heading Expression Semantics]

	Semantics of an expression is defined only where it differs from, or is
	not defined in __primitive_generator_concept__.

	[table
	[[Expression] [Description]]
	[[`auto_`] [Create a generator instance compatible with the
	supplied attribute type and use it for output
	generation. This generator never fails
	(unless the underlying output stream reports an
	error).]]
	[[`auto_(s)`] [Create a generator instance compatible with the
	supplied literal value. This generator never fails
	(unless the underlying output stream reports an
	error).]]
	]

	[heading Additional Requirements]

	The `auto_` generators can be used to emit output for any data type for which
	a mapping to a generator type is defined (the meta function
	`traits::create_generator_exists` returns `mpl::true_`).
	The following table outlines the predefined mapping rules from the attribute type
	to the generator type. These rules are applied recursively to create the generator
	type which can be used to generate output from the given attribute type.

	[table
	[[Attribute type] [Generator type]]
	[[`char`, `wchar_t`] [`standard::char_`, `standard_wide::char_`]]
	[[`short`, `int`, `long`] [`short_`, `int_`, `long_`]]
	[[`unsigned short`, `unsigned int`, `unsigned long`]
	[`ushort_`, `uint_`, `ulong_`]]
	[[`float`, `double`, `long double`] [`float_`, `double_`, `long_double`]]
	[[`short`, `int`, `long`] [`short_`, `int_`, `long_`]]
	[[`long long`, `unsigned long long`]
	[`long_long`, `ulong_long`]]
	[[`bool`] [`bool_`]]
	[[Any string (`char const*`, `std::string`, etc.)]
	[`string`]]
	[[Any (STL) container] [Kleene Star (unary `'*'`)]]
	[[Any Fusion sequence] [Sequence operator (`'<<'`)]]
	[[`boost::optional<>`] [Optional operator (unary `'-'`)]]
	[[`boost::variant<>`] [Alternative operator (`'\|'`)]]
	]

	It is possible to add support for any custom data type by implementing a
	specialization of the customization point __customize_create_generator__. This
	customization can be used also to redefined any of the predefined mappings.

	[heading Attributes]

	[table
	[[Expression] [Attribute]]
	[[`auto_`] [`hold_any`, attribute is mandatory (otherwise
	compilation will fail)]]
	[[`auto_(s)`] [__unused__]]
	]

	[important The attribute type `hold_any` exposed by some of the `auto_`
	generators is semantically and syntactically equivalent to
	the type implemented by __boost_any__. It has been added to /Spirit/
	as it has better a performance and a smaller footprint if compared to
	__boost_any__.
	]

	[note In addition to their usual attribute of type `Attrib` all listed generators
	accept an instance of a `boost::optional<Attrib>` as well. If the
	`boost::optional<>` is initialized (holds a value) the generators behave
	as if their attribute was an instance of `Attrib` and emit the value stored
	in the `boost::optional<>`. Otherwise the generators will fail.]

	[heading Complexity]

	[:The complexity of the `auto_` generator depends on the attribute type. Each
	attribute type results in a different generator type to be instantiated which
	defines the overall complexity.]

	[heading Example]

	[note The test harness for the example(s) below is presented in the
	__karma_basics_examples__ section.]

	Some includes:

	[reference_karma_includes]

	Some using declarations:

	[reference_karma_using_declarations_auto]

	And a class definition used in the examples:

	[reference_karma_complex]
	[reference_karma_auto_complex]

	Some usage examples of `auto_` generators:

	[reference_karma_auto]

	[endsect]