// Copyright Vladimir Prus 2002-2004. // Copyright Bertolt Mildner 2004. // 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) #ifndef BOOST_OPTION_DESCRIPTION_VP_2003_05_19 #define BOOST_OPTION_DESCRIPTION_VP_2003_05_19 #include <boost/program_options/config.hpp> #include <boost/program_options/errors.hpp> #include <boost/program_options/value_semantic.hpp> #include <boost/function.hpp> #include <boost/shared_ptr.hpp> #include <boost/detail/workaround.hpp> #include <boost/any.hpp> #include <string> #include <vector> #include <set> #include <map> #include <stdexcept> #include <iosfwd> /** Boost namespace */ namespace boost { /** Namespace for the library. */ namespace program_options { /** Describes one possible command line/config file option. There are two kinds of properties of an option. First describe it syntactically and are used only to validate input. Second affect interpretation of the option, for example default value for it or function that should be called when the value is finally known. Routines which perform parsing never use second kind of properties -- they are side effect free. @sa options_description */ class BOOST_PROGRAM_OPTIONS_DECL option_description { public: option_description(); /** Initializes the object with the passed data. Note: it would be nice to make the second parameter auto_ptr, to explicitly pass ownership. Unfortunately, it's often needed to create objects of types derived from 'value_semantic': options_description d; d.add_options()("a", parameter<int>("n")->default_value(1)); Here, the static type returned by 'parameter' should be derived from value_semantic. Alas, derived->base conversion for auto_ptr does not really work, see http://anubis.dkuug.dk/jtc1/sc22/wg21/docs/papers/2000/n1232.pdf http://std.dkuug.dk/jtc1/sc22/wg21/docs/cwg_defects.html#84 So, we have to use plain old pointers. Besides, users are not expected to use the constructor directly. The 'name' parameter is interpreted by the following rules: - if there's no "," character in 'name', it specifies long name - otherwise, the part before "," specifies long name and the part after -- long name. */ option_description(const char* name, const value_semantic* s); /** Initializes the class with the passed data. */ option_description(const char* name, const value_semantic* s, const char* description); virtual ~option_description(); enum match_result { no_match, full_match, approximate_match }; /** Given 'option', specified in the input source, return 'true' is 'option' specifies *this. */ match_result match(const std::string& option, bool approx, bool long_ignore_case, bool short_ignore_case) const; /** Return the key that should identify the option, in particular in the variables_map class. The 'option' parameter is the option spelling from the input source. If option name contains '*', returns 'option'. If long name was specified, it's the long name, otherwise it's a short name with prepended '-'. */ const std::string& key(const std::string& option) const; const std::string& long_name() const; /// Explanation of this option const std::string& description() const; /// Semantic of option's value shared_ptr<const value_semantic> semantic() const; /// Returns the option name, formatted suitably for usage message. std::string format_name() const; /** Return the parameter name and properties, formatted suitably for usage message. */ std::string format_parameter() const; private: option_description& set_name(const char* name); std::string m_short_name, m_long_name, m_description; // shared_ptr is needed to simplify memory management in // copy ctor and destructor. shared_ptr<const value_semantic> m_value_semantic; }; class options_description; /** Class which provides convenient creation syntax to option_description. */ class BOOST_PROGRAM_OPTIONS_DECL options_description_easy_init { public: options_description_easy_init(options_description* owner); options_description_easy_init& operator()(const char* name, const char* description); options_description_easy_init& operator()(const char* name, const value_semantic* s); options_description_easy_init& operator()(const char* name, const value_semantic* s, const char* description); private: options_description* owner; }; /** A set of option descriptions. This provides convenient interface for adding new option (the add_options) method, and facilities to search for options by name. See @ref a_adding_options "here" for option adding interface discussion. @sa option_description */ class BOOST_PROGRAM_OPTIONS_DECL options_description { public: static const unsigned m_default_line_length; /** Creates the instance. */ options_description(unsigned line_length = m_default_line_length, unsigned min_description_length = m_default_line_length / 2); /** Creates the instance. The 'caption' parameter gives the name of this 'options_description' instance. Primarily useful for output. The 'description_length' specifies the number of columns that should be reserved for the description text; if the option text encroaches into this, then the description will start on the next line. */ options_description(const std::string& caption, unsigned line_length = m_default_line_length, unsigned min_description_length = m_default_line_length / 2); /** Adds new variable description. Throws duplicate_variable_error if either short or long name matches that of already present one. */ void add(shared_ptr<option_description> desc); /** Adds a group of option description. This has the same effect as adding all option_descriptions in 'desc' individually, except that output operator will show a separate group. Returns *this. */ options_description& add(const options_description& desc); public: /** Returns an object of implementation-defined type suitable for adding options to options_description. The returned object will have overloaded operator() with parameter type matching 'option_description' constructors. Calling the operator will create new option_description instance and add it. */ options_description_easy_init add_options(); const option_description& find(const std::string& name, bool approx, bool long_ignore_case = false, bool short_ignore_case = false) const; const option_description* find_nothrow(const std::string& name, bool approx, bool long_ignore_case = false, bool short_ignore_case = false) const; const std::vector< shared_ptr<option_description> >& options() const; /** Produces a human readable output of 'desc', listing options, their descriptions and allowed parameters. Other options_description instances previously passed to add will be output separately. */ friend BOOST_PROGRAM_OPTIONS_DECL std::ostream& operator<<(std::ostream& os, const options_description& desc); /** Output 'desc' to the specified stream, calling 'f' to output each option_description element. */ void print(std::ostream& os) const; private: typedef std::map<std::string, int>::const_iterator name2index_iterator; typedef std::pair<name2index_iterator, name2index_iterator> approximation_range; //approximation_range find_approximation(const std::string& prefix) const; std::string m_caption; const unsigned m_line_length; const unsigned m_min_description_length; // Data organization is chosen because: // - there could be two names for one option // - option_add_proxy needs to know the last added option std::vector< shared_ptr<option_description> > m_options; // Whether the option comes from one of declared groups. #if BOOST_WORKAROUND(BOOST_DINKUMWARE_STDLIB, BOOST_TESTED_AT(313)) // vector<bool> is buggy there, see // http://support.microsoft.com/default.aspx?scid=kb;en-us;837698 std::vector<char> belong_to_group; #else std::vector<bool> belong_to_group; #endif std::vector< shared_ptr<options_description> > groups; }; /** Class thrown when duplicate option description is found. */ class BOOST_PROGRAM_OPTIONS_DECL duplicate_option_error : public error { public: duplicate_option_error(const std::string& what) : error(what) {} }; }} #endif