// -*- Mode: C++ -*- // // Copyright (C) 2013-2018 Red Hat, Inc. // // This file is part of the GNU Application Binary Interface Generic // Analysis and Instrumentation Library (libabigail). 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 3, 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 // General Lesser Public License for more details. // You should have received a copy of the GNU Lesser General Public // License along with this program; see the file COPYING-LGPLV3. If // not, see . // // Author: Dodji Seketeli /// @file /// /// This file contains the declarations for the ini file reader used in /// the libabigail library. #ifndef __ABG_INI_H__ #define __ABG_INI_H__ #include #include #include #include #include namespace abigail { /// Namespace for handling ini-style files namespace ini { // Inject some standard types in this namespace. using std::tr1::shared_ptr; using std::tr1::dynamic_pointer_cast; using std::string; using std::vector; using std:: pair; class property; /// Convenience typefef for shared_ptr to @ref property. typedef shared_ptr property_sptr; /// The base class of the different kinds of properties of an INI /// file. class property { struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; public: property(); property(const string& name); const string& get_name() const; void set_name(const string& name); virtual ~property(); }; // end class property class property_value; /// Convenience typedef for a shared_ptr to @ref property_value. typedef shared_ptr property_value_sptr; /// Base class of propertie values. class property_value { public: enum value_kind { ABSTRACT_PROPERTY_VALUE = 0, STRING_PROPERTY_VALUE = 1, LIST_PROPERTY_VALUE = 2, TUPLE_PROPERTY_VALUE = 3, }; private: struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; public: property_value(); property_value(value_kind); value_kind get_kind() const; virtual const string& as_string() const = 0; operator const string& () const; virtual ~property_value(); }; // end class property_value. class string_property_value; /// A convenience typedef for a shared_ptr to @ref string_property_value. typedef shared_ptr string_property_value_sptr; /// A property value which is a string. class string_property_value : public property_value { struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; public: string_property_value(); string_property_value(const string& value); void set_content(const string&); virtual const string& as_string() const; operator string() const; virtual ~string_property_value(); }; // end class string_property_value string_property_value* is_string_property_value(const property_value*); string_property_value_sptr is_string_property_value(const property_value_sptr); class list_property_value; /// A convenience typedef for a shared_ptr to @ref /// list_property_value. typedef shared_ptr list_property_value_sptr; /// Abstracts the value of a property representing a list of strings. /// /// It's the right hand side of the construct which syntax looks like: /// /// name = val1, val2, val3 /// /// where val1, val2 and val3 are strings. /// /// So this class abstracts the set [val1, val2, val3]. class list_property_value : public property_value { struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; public: list_property_value(); list_property_value(const vector& values); const vector& get_content() const; void set_content(const vector&); virtual const string& as_string() const; }; // end class list_property_value list_property_value* is_list_property_value(const property_value*); list_property_value_sptr is_list_property_value(const property_value_sptr&); class tuple_property_value; /// Convenience typedef for a shared_ptr to a @ref /// tuple_property_value. typedef shared_ptr tuple_property_value_sptr; /// A property value that is a tuple. /// /// Each element of the tuple is itself a property value that can /// either be a string, or another tuple, for instance. class tuple_property_value : public property_value { struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; public: tuple_property_value(const vector&); const vector& get_value_items() const; vector& get_value_items(); virtual const string& as_string() const; operator string() const; virtual ~tuple_property_value(); }; // end class tuple_property_value tuple_property_value* is_tuple_property_value(const property_value*); tuple_property_value_sptr is_tuple_property_value(const property_value_sptr); class simple_property; /// Convenience typedef for a shared_ptr to an @ref simple_property. typedef shared_ptr simple_property_sptr; /// A simple property. That is, one which value is a /// @ref string_property_value. class simple_property : public property { struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; public: simple_property(); simple_property(const string& name, const string_property_value_sptr& value); simple_property(const string& name); const string_property_value_sptr& get_value() const; void set_value(const string_property_value_sptr& value); bool has_empty_value() const; virtual ~simple_property(); }; // end class simple_property simple_property* is_simple_property(const property* p); simple_property_sptr is_simple_property(const property_sptr p); class list_property; /// A convenience typedef for a shared_ptr to a @ref list_property. typedef shared_ptr list_property_sptr; /// A class representing a list property. /// /// It abstracts a construct which syntax looks like: /// /// name = val1, val2, val3 /// /// The value of a list property is a @ref list_property_value, i.e, a /// list of strings. class list_property : public property { struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; public: list_property(); list_property(const string& name, const list_property_value_sptr& value); const list_property_value_sptr& get_value() const; void set_value(const list_property_value_sptr& value); virtual ~list_property(); }; // end class list_property list_property* is_list_property(const property* p); list_property_sptr is_list_property(const property_sptr p); class tuple_property; /// Convenience typedef for a shared_ptr of @ref tuple_property. typedef shared_ptr tuple_property_sptr; /// Abstraction of a tuple property. A tuple property is a property /// which value is a @ref tuple_property_value. class tuple_property : public property { struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; public: tuple_property(); tuple_property(const string& name, const tuple_property_value_sptr v); void set_value(const tuple_property_value_sptr value); const tuple_property_value_sptr& get_value() const; virtual ~tuple_property(); }; // end class tuple_property tuple_property* is_tuple_property(const property* p); tuple_property_sptr is_tuple_property(const property_sptr p); class config; /// A convenience typedef for a shared pointer to @ref config typedef shared_ptr config_sptr; /// The abstraction of the structured content of an .ini file. This /// roughly follows what is explained at /// http://en.wikipedia.org/wiki/INI_file. class config { class priv; typedef shared_ptr priv_sptr; public: class section; /// A convenience typedef for a shared pointer to a config::section. typedef shared_ptr
section_sptr; /// A convenience typedef for a vector of config::section_sptr. typedef vector sections_type; /// A convenience typedef for a vector of @ref property_sptr typedef vector properties_type; private: priv_sptr priv_; public: config(); config(const string& path, sections_type& sections); virtual ~config(); const string& get_path() const; void set_path(const string& path); const sections_type& get_sections() const; void set_sections(const sections_type& sections); }; // end class config /// The abstraction of one section of the .ini config. class config::section { class priv; typedef shared_ptr priv_sptr; priv_sptr priv_; // Forbid this section(); public: section(const string& name); section(const string& name, const properties_type& properties); const string& get_name() const; const properties_type& get_properties() const; void set_properties(const properties_type& properties); void add_property(const property_sptr prop); property_sptr find_property(const string& prop_name) const; virtual ~section(); }; //end class config::section bool read_sections(std::istream& input, config::sections_type& sections); bool read_sections(const string& path, config::sections_type& sections); bool read_config(std::istream& input, config& conf); config_sptr read_config(std::istream& input); bool read_config(const string& path, config& conf); config_sptr read_config(const string& path); bool write_sections(const config::sections_type& sections, std::ostream& output); bool write_sections(const config::sections_type& sections, const string& path); bool write_config(const config& conf, std::ostream& output); bool write_config(const config& conf, const string& path); class function_call_expr; /// Convenience typedef for a shared pointer to function_call_expr typedef shared_ptr function_call_expr_sptr; /// The abstraction of a function call expression. class function_call_expr { struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; function_call_expr(); public: function_call_expr(const string& name, const vector& args); const string& get_name() const; const vector& get_arguments() const; vector& get_arguments(); }; //end function_call_expr bool read_function_call_expr(std::istream& input, function_call_expr_sptr& expr); bool read_function_call_expr(const string& input, function_call_expr_sptr& expr); function_call_expr_sptr read_function_call_expr(const string& input); }// end namespace ini }// end namespace abigail #endif // __ABG_INI_H__