#ifndef BOOST_PROPERTY_MAP_DYNAMIC_PROPERTY_MAP_HPP #define BOOST_PROPERTY_MAP_DYNAMIC_PROPERTY_MAP_HPP // Copyright 2004-5 The Trustees of Indiana University. // Use, modification and distribution is subject to 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) // dynamic_property_map.hpp - // Support for runtime-polymorphic property maps. This header is factored // out of Doug Gregor's routines for reading GraphML files for use in reading // GraphViz graph files. // Authors: Doug Gregor // Ronald Garcia // #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { namespace detail { // read_value - // A wrapper around lexical_cast, which does not behave as // desired for std::string types. template inline Value read_value(const std::string& value) { return boost::lexical_cast(value); } template<> inline std::string read_value(const std::string& value) { return value; } } // dynamic_property_map - // This interface supports polymorphic manipulation of property maps. class dynamic_property_map { public: virtual ~dynamic_property_map() { } virtual boost::any get(const any& key) = 0; virtual std::string get_string(const any& key) = 0; virtual void put(const any& key, const any& value) = 0; virtual const std::type_info& key() const = 0; virtual const std::type_info& value() const = 0; }; ////////////////////////////////////////////////////////////////////// // Property map exceptions ////////////////////////////////////////////////////////////////////// struct dynamic_property_exception : public std::exception { ~dynamic_property_exception() throw() BOOST_OVERRIDE {} const char* what() const throw() BOOST_OVERRIDE = 0; }; struct property_not_found : public dynamic_property_exception { std::string property; mutable std::string statement; property_not_found(const std::string& property) : property(property) {} ~property_not_found() throw() BOOST_OVERRIDE {} const char* what() const throw() BOOST_OVERRIDE { if(statement.empty()) statement = std::string("Property not found: ") + property + "."; return statement.c_str(); } }; struct dynamic_get_failure : public dynamic_property_exception { std::string property; mutable std::string statement; dynamic_get_failure(const std::string& property) : property(property) {} ~dynamic_get_failure() throw() BOOST_OVERRIDE {} const char* what() const throw() BOOST_OVERRIDE { if(statement.empty()) statement = std::string( "dynamic property get cannot retrieve value for property: ") + property + "."; return statement.c_str(); } }; struct dynamic_const_put_error : public dynamic_property_exception { ~dynamic_const_put_error() throw() BOOST_OVERRIDE {} const char* what() const throw() BOOST_OVERRIDE { return "Attempt to put a value into a const property map: "; } }; namespace detail { // Trying to work around VC++ problem that seems to relate to having too many // functions named "get" template typename boost::property_traits::reference get_wrapper_xxx(const PMap& pmap, const Key& key) { using boost::get; return get(pmap, key); } // // dynamic_property_map_adaptor - // property-map adaptor to support runtime polymorphism. template class dynamic_property_map_adaptor : public dynamic_property_map { typedef typename property_traits::key_type key_type; typedef typename property_traits::value_type value_type; typedef typename property_traits::category category; // do_put - overloaded dispatches from the put() member function. // Attempts to "put" to a property map that does not model // WritablePropertyMap result in a runtime exception. // in_value must either hold an object of value_type or a string that // can be converted to value_type via iostreams. void do_put(const any& in_key, const any& in_value, mpl::bool_) { using boost::put; key_type key_ = any_cast(in_key); if (in_value.type() == boost::typeindex::type_id()) { put(property_map_, key_, any_cast(in_value)); } else { // if in_value is an empty string, put a default constructed value_type. std::string v = any_cast(in_value); if (v.empty()) { put(property_map_, key_, value_type()); } else { put(property_map_, key_, detail::read_value(v)); } } } void do_put(const any&, const any&, mpl::bool_) { BOOST_THROW_EXCEPTION(dynamic_const_put_error()); } public: explicit dynamic_property_map_adaptor(const PropertyMap& property_map_) : property_map_(property_map_) { } boost::any get(const any& key_) BOOST_OVERRIDE { return get_wrapper_xxx(property_map_, any_cast::key_type>(key_)); } std::string get_string(const any& key_) BOOST_OVERRIDE { std::ostringstream out; out << get_wrapper_xxx(property_map_, any_cast::key_type>(key_)); return out.str(); } void put(const any& in_key, const any& in_value) BOOST_OVERRIDE { do_put(in_key, in_value, mpl::bool_<(is_convertible::value)>()); } const std::type_info& key() const BOOST_OVERRIDE { return typeid(key_type); } const std::type_info& value() const BOOST_OVERRIDE { return typeid(value_type); } PropertyMap& base() { return property_map_; } const PropertyMap& base() const { return property_map_; } private: PropertyMap property_map_; }; } // namespace detail // // dynamic_properties - // container for dynamic property maps // struct dynamic_properties { typedef std::multimap > property_maps_type; typedef boost::function3, const std::string&, const boost::any&, const boost::any&> generate_fn_type; public: typedef property_maps_type::iterator iterator; typedef property_maps_type::const_iterator const_iterator; dynamic_properties() : generate_fn() { } dynamic_properties(const generate_fn_type& g) : generate_fn(g) {} ~dynamic_properties() {} template dynamic_properties& property(const std::string& name, PropertyMap property_map_) { boost::shared_ptr pm( boost::static_pointer_cast( boost::make_shared >(property_map_))); property_maps.insert(property_maps_type::value_type(name, pm)); return *this; } template dynamic_properties property(const std::string& name, PropertyMap property_map_) const { dynamic_properties result = *this; result.property(name, property_map_); return result; } iterator begin() { return property_maps.begin(); } const_iterator begin() const { return property_maps.begin(); } iterator end() { return property_maps.end(); } const_iterator end() const { return property_maps.end(); } iterator lower_bound(const std::string& name) { return property_maps.lower_bound(name); } const_iterator lower_bound(const std::string& name) const { return property_maps.lower_bound(name); } void insert(const std::string& name, boost::shared_ptr pm) { property_maps.insert(property_maps_type::value_type(name, pm)); } template boost::shared_ptr generate(const std::string& name, const Key& key, const Value& value) { if(!generate_fn) { BOOST_THROW_EXCEPTION(property_not_found(name)); } else { return generate_fn(name,key,value); } } private: property_maps_type property_maps; generate_fn_type generate_fn; }; template bool put(const std::string& name, dynamic_properties& dp, const Key& key, const Value& value) { for (dynamic_properties::iterator i = dp.lower_bound(name); i != dp.end() && i->first == name; ++i) { if (i->second->key() == typeid(key)) { i->second->put(key, value); return true; } } boost::shared_ptr new_map = dp.generate(name, key, value); if (new_map.get()) { new_map->put(key, value); dp.insert(name, new_map); return true; } else { return false; } } template Value get(const std::string& name, const dynamic_properties& dp, const Key& key) { for (dynamic_properties::const_iterator i = dp.lower_bound(name); i != dp.end() && i->first == name; ++i) { if (i->second->key() == typeid(key)) return any_cast(i->second->get(key)); } BOOST_THROW_EXCEPTION(dynamic_get_failure(name)); } template Value get(const std::string& name, const dynamic_properties& dp, const Key& key, type) { for (dynamic_properties::const_iterator i = dp.lower_bound(name); i != dp.end() && i->first == name; ++i) { if (i->second->key() == typeid(key)) return any_cast(i->second->get(key)); } BOOST_THROW_EXCEPTION(dynamic_get_failure(name)); } template std::string get(const std::string& name, const dynamic_properties& dp, const Key& key) { for (dynamic_properties::const_iterator i = dp.lower_bound(name); i != dp.end() && i->first == name; ++i) { if (i->second->key() == typeid(key)) return i->second->get_string(key); } BOOST_THROW_EXCEPTION(dynamic_get_failure(name)); } // The easy way to ignore properties. inline boost::shared_ptr ignore_other_properties(const std::string&, const boost::any&, const boost::any&) { return boost::shared_ptr(); } } // namespace boost #endif // BOOST_PROPERTY_MAP_DYNAMIC_PROPERTY_MAP_HPP