4 // Fraunhofer Institute for Open Communication Systems (FOKUS)
5 // Competence Center NETwork research (NET), St. Augustin, GERMANY
6 // Stefan Bund <g0dil@berlios.de>
8 // This program is free software; you can redistribute it and/or modify
9 // it under the terms of the GNU General Public License as published by
10 // the Free Software Foundation; either version 2 of the License, or
11 // (at your option) any later version.
13 // This program is distributed in the hope that it will be useful,
14 // but WITHOUT ANY WARRANTY; without even the implied warranty of
15 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 // GNU General Public License for more details.
18 // You should have received a copy of the GNU General Public License
19 // along with this program; if not, write to the
20 // Free Software Foundation, Inc.,
21 // 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
24 \brief Traits public header */
26 #ifndef HH_SENF_Scheduler_Console_Traits_
27 #define HH_SENF_Scheduler_Console_Traits_ 1
31 #include <boost/intrusive_ptr.hpp>
32 #include "../../Utils/intrusive_refcount.hh"
37 //#include "Traits.mpp"
38 ///////////////////////////////hh.p////////////////////////////////////////
43 /** \brief Customize return value formating
45 ReturnValueTraits provides return value formatting. The default implementation provided here
46 will forward the call directly to senf_console_format_value(). The default implementation of
47 that function will write the \a value to \a os using standard iostream formatting.
49 To customize this behavior for some type, either provide an implementation of
50 senf_console_format_value() in the types namespace or provide a specialization of
53 The output should \e not end in a newline since one is added automatically.
56 struct ReturnValueTraits
60 static void format(Type const & value, std::ostream & os);
61 ///< Write \a value to \a os
64 /** \brief Return value formatter
66 \see ReturnValuetraits
68 \related ReturnValueTraits
71 void senf_console_format_value(Type const & value, std::ostream & os);
73 /** \brief Customize argument parsing
75 ArgumentTraits provides argument parsing, Additionally, this class provides a way to get a
76 string-description of a type and to convert a value back into it's string representation
77 used to display default values.
79 The default implementation provided here
80 \li will use senf_console_parse_argument() to parse a value. This functions default
81 implementation uses \c boost::lexical_cast and thereby \c iostreams to convert an
82 argument consisting of a single input token into the required type.
83 \li will name types by returning the last component of the fully scoped name (e.g. \c
84 "string" for \c std::string).
85 \li Will format values (for default value display) by forwarding the value to the
86 ReturnValueTraits of that type.
88 To customize just the argument parsing, just provide an implementation of
89 senf_console_parse_argument(). Alternatively or to customize type naming or default value
90 formatting, specialize ArgumentTraits for the type.
97 static void parse(ParseCommandInfo::TokensRange const & tokens, Type & out);
98 ///< Parse token range into value
99 /**< This function needs to parse \a tokens and write the
100 parsed value into \a out. This function needs to parse
101 the \e complete list of tokens, additional tokens must
102 be considered as syntax error.
103 \throws SyntaxErrorException
104 \param[in] tokens tokens to parse
105 \param[out] out parsed value */
107 static std::string description(); ///< String description of type
108 /**< Returns the string description of \a Type. Used to
109 generate online help. */
110 static std::string str(Type const & value); ///< Stringify value
111 /**< To show default values in the online help, this
112 function converts a value back into a one-line string
113 representation. The default implementation uses the
114 ReturnValueTraits for this conversion. */
117 /** \brief Argument parser
121 \related ArgumentTraits
123 template <class Type>
124 void senf_console_parse_argument(ParseCommandInfo::TokensRange const & tokens, Type & out);
126 /** \brief Parse token range
128 This helper will invoke the correct ArgumentTraits::parse function to parse the input tokens
129 into the passed in variable.
133 template <class Type>
134 void parse(ParseCommandInfo::TokensRange const & tokens, Type & out);
136 template <class Type>
137 void format(Type const & value, std::ostream & os);
141 // Parse bool: true/false, yes/no, enabled/disabled, 0/1
143 struct ArgumentTraits<bool>
147 static void parse(ParseCommandInfo::TokensRange const & tokens, bool & out);
148 static std::string description();
149 static std::string str(bool value);
153 struct ReturnValueTraits<bool>
157 static void format(bool value, std::ostream & os);
162 /** \brief Format boolean value as \c true / \c false */
163 void formatTrueFalse(bool value, std::ostream & os);
165 /** \brief Format boolean value as \c yes / \c no */
166 void formatYesNo(bool value, std::ostream & os);
168 /** \brief Format boolean value as \c enabled / \c disabled */
169 void formatEnabledDisabled(bool value, std::ostream & os);
171 /** \brief Format boolean value as \c on / \c off */
172 void formatOnOff(bool value, std::ostream & os);
174 /** \brief Format boolean value as \c 1 / \c 0 */
175 void formatOneZero(bool value, std::ostream & os);
177 /** \brief Register enum type for argument parsing
179 Enum types need to be registered explicitly to support parsing.
181 enum Foo { Foo1, Foo2 };
182 SENF_CONSOLE_REGISTER_ENUM( Foo, (Foo1)(Foo2) );
184 This macro will register an enum type and it's enumerators defined at namespace scope. See
185 \ref SENF_CONSOLE_REGISTER_ENUM_MEMBER to register a member enum type.
187 \ingroup console_commands
189 # define SENF_CONSOLE_REGISTER_ENUM(Type, Values) \
190 SENF_CONSOLE_REGISTER_ENUM_(BOOST_PP_EMPTY(), Type, Values)
192 /** \brief Register enum type for argument parsing
194 Enum types need to be registered explicitly to support parsing.
198 enum Foo { Foo1, Foo2 };
201 SENF_CONSOLE_REGISTER_ENUM_MEMBER( SomeClass, Foo, (Foo1)(Foo2) );
202 \endcode This macro will register an enum type and it's enumerators defined in a class. See
203 \ref SENF_CONSOLE_REGISTER_ENUM to register an enum type declared at namespace scope.
205 \ingroup console_commands
207 # define SENF_CONSOLE_REGISTER_ENUM_MEMBER(Class, Type, Values) \
208 SENF_CONSOLE_REGISTER_ENUM_(Class::, Type, Values)
212 ///////////////////////////////hh.e////////////////////////////////////////
213 #include "Traits.cci"
215 #include "Traits.cti"
222 // comment-column: 40
223 // c-file-style: "senf"
224 // indent-tabs-mode: nil
225 // ispell-local-dictionary: "american"
226 // compile-command: "scons -u test"