boost_1_45_0/libs/multi_index/example/complex_structs.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /* Boost.MultiIndex example: complex searches and foreign keys.
  *
  * Copyright 2003-2008 Joaquin M Lopez Munoz.
  * 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)
  *
  * See http://www.boost.org/libs/multi_index for library home page.
  */

 #if !defined(NDEBUG)
 #define BOOST_MULTI_INDEX_ENABLE_INVARIANT_CHECKING
 #define BOOST_MULTI_INDEX_ENABLE_SAFE_MODE
 #endif

 #include <boost/multi_index_container.hpp>
 #include <boost/multi_index/member.hpp>
 #include <boost/multi_index/ordered_index.hpp>
 #include <boost/tuple/tuple.hpp>
 #include <iostream>
 #include <string>

 using boost::multi_index_container;
 using namespace boost::multi_index;

 /* This small utility that cascades two key extractors will be
  * used througout the example.
  */

 template<class KeyExtractor1,class KeyExtractor2>
 struct key_from_key
 {
 public:
   typedef typename KeyExtractor1::result_type result_type;

   key_from_key(
     const KeyExtractor1& key1_=KeyExtractor1(),
     const KeyExtractor2& key2_=KeyExtractor2()):
     key1(key1_),key2(key2_)
   {}

   template<typename Arg>
   result_type operator()(Arg& arg)const
   {
     return key1(key2(arg));
   }

 private:
   KeyExtractor1 key1;
   KeyExtractor2 key2;
 };

 /* tags for accessing several indices defined below */

 struct model{};
 struct manufacturer{};
 struct price{};

 /* a manufacturer struct just holds the name of the manufacturer */

 struct car_manufacturer
 {
   std::string name;

   car_manufacturer(const std::string& name_):name(name_){}
 };

 /* car_model holds the model of car, its price and a pointer to the
  * manufacturer. The pointer thing eliminates duplication of the same
  * data among cars of the same manufacturer.
  */

 struct car_model
 {
   std::string             model;
   const car_manufacturer* manufacturer;
   int                     price;

   car_model(
     const std::string& model_,const car_manufacturer* manufacturer_,int price_):
     model(model_),manufacturer(manufacturer_),price(price_)
   {}

   friend std::ostream& operator<<(std::ostream& os,const car_model& c)
   {
     os<<c.manufacturer->name<<" "<<c.model<<" $"<<c.price<<std::endl;
     return os;
   }
 };

 /* see Compiler specifics: Use of member_offset for info on
  * BOOST_MULTI_INDEX_MEMBER
  */

 /* Car manufacturers are stored in a multi_index_container with one single
  * index on  the name member. This is functionally equivalent to an std::set,
  * though in this latter case we woud have to define a non-default comparison
  * predicate (with multi_index_container, member<> does the work for us.)
  */

 typedef multi_index_container<
   car_manufacturer,
   indexed_by<
     ordered_unique<
       BOOST_MULTI_INDEX_MEMBER(car_manufacturer,std::string,name)
     >
   >
 > car_manufacturer_table;

 /* Define a multi_index_container of car_models with following indices:
  *   - a unique index sorted by car_model::model,
  *   - a non-unique index sorted by car_model::manufacturer; note the
  *     non-standard manufacturer_extractor used.
  *   - a non-unique index sorted by car_model::price.
  */

 typedef multi_index_container<
   car_model,
   indexed_by<
     ordered_unique<
       tag<model>,BOOST_MULTI_INDEX_MEMBER(car_model,std::string,model)
     >,
     ordered_non_unique<
       tag<manufacturer>,
       key_from_key<
         BOOST_MULTI_INDEX_MEMBER(car_manufacturer,const std::string,name),
         BOOST_MULTI_INDEX_MEMBER(
           car_model,const car_manufacturer *,manufacturer)
       >
     >,
     ordered_non_unique<
       tag<price>,BOOST_MULTI_INDEX_MEMBER(car_model,int,price)
     >
   >
 > car_table;

 /* We call a *view* to a multi_index_container storing pointers instead of
  * actual objects. These views are used in the complex search performed
  * in the program. Resorting to multi_index of pointers eliminates
  * unnecessary copying of objects, and provides us with an opportunity
  * to show how BOOST_MULTI_INDEX_MEMBER can be used with pointer
  * type elements.
  * car_table_price_view indexes (pointers to) car_models by price.
  */

 typedef multi_index_container<
   const car_model*,
   indexed_by<
     ordered_non_unique<BOOST_MULTI_INDEX_MEMBER(car_model,const int,price)>
   >
 > car_table_price_view;

 /* car_table_manufacturer_view indexes (pointers to) car_models by
  * manufacturer
  */

 typedef multi_index_container<
   const car_model*,
   indexed_by<
     ordered_non_unique<
       key_from_key<
         BOOST_MULTI_INDEX_MEMBER(car_manufacturer,const std::string,name),
         BOOST_MULTI_INDEX_MEMBER(
           car_model,const car_manufacturer * const,manufacturer)
       >
     >
   >
 > car_table_manufacturer_view;

 int main()
 {
   car_manufacturer_table cmt;

   /* Fill the car_manufacturer table and keep pointers to the
    * elements inserted.
    */

   const car_manufacturer * cadillac=
     &*(cmt.insert(car_manufacturer("Cadillac")).first);
   const car_manufacturer * ford    =
     &*(cmt.insert(car_manufacturer("Ford")).first);
   const car_manufacturer * bmw     =
     &*(cmt.insert(car_manufacturer("BMW")).first);
   const car_manufacturer * audi    =
     &*(cmt.insert(car_manufacturer("Audi")).first);

   car_table ct;

   /* Fill the car_model_table. We use the previously initialized
    * pointers to the elements of cmt.
    */

   ct.insert(car_model("XLR",cadillac,76200));
   ct.insert(car_model("SRX",cadillac,38690));
   ct.insert(car_model("CTS",cadillac,30695));
   ct.insert(car_model("Escalade",cadillac,54770));
   ct.insert(car_model("ESV",cadillac,57195));
   ct.insert(car_model("EXT",cadillac,52045));
   ct.insert(car_model("Deville",cadillac,45195));
   ct.insert(car_model("Seville",cadillac,46330));

   ct.insert(car_model("ZX2",ford,15355));
   ct.insert(car_model("Thunderbird",ford,43995));
   ct.insert(car_model("Windstar",ford,35510));
   ct.insert(car_model("Focus",ford,19630));
   ct.insert(car_model("Taurus",ford,24290));
   ct.insert(car_model("Mustang",ford,39900));
   ct.insert(car_model("Crown Victoria",ford,30370));

   ct.insert(car_model("325i",bmw,27800));
   ct.insert(car_model("545i",bmw,54300));
   ct.insert(car_model("745i",bmw,68500));
   ct.insert(car_model("M3 coupe",bmw,46500));
   ct.insert(car_model("Z4 roadster 3.0i",bmw,40250));
   ct.insert(car_model("X5 4.4i",bmw,49950));

   ct.insert(car_model("A4 1.8T",audi,25940));
   ct.insert(car_model("TT Coupe",audi,33940));
   ct.insert(car_model("A6 3.0",audi,36640));
   ct.insert(car_model("Allroad quattro 2.7T",audi,40640));
   ct.insert(car_model("A8 L",audi,69190));

   std::cout<<"enter a car manufacturer"<<std::endl;
   std::string cm;
   std::getline(std::cin,cm);

   /* check for manufacturer */

   car_manufacturer_table::iterator icm=cmt.find(cm);

   if(icm==cmt.end()){
     std::cout<<"no such manufacturer in the table"<<std::endl;
     return 0;
   }

   std::cout<<"enter a minimum price"<<std::endl;
   int min_price;
   std::cin>>min_price;
   std::cout<<"enter a maximum price"<<std::endl;
   int max_price;
   std::cin>>max_price;

   {
     /* method 1 */

     /* find all the cars for the manufacturer given */

     boost::multi_index::index<car_table,manufacturer>::type::iterator ic0,ic1;
     boost::tuples::tie(ic0,ic1)=get<manufacturer>(ct).equal_range(cm);

     /* construct a view (indexed by price) with these */

     car_table_price_view ctpv;
     while(ic0!=ic1){
       ctpv.insert(&*ic0);
       ++ic0;
     }

     /* select the cars in the range given */

     car_table_price_view::iterator ictpv0=ctpv.lower_bound(min_price);
     car_table_price_view::iterator ictpv1=ctpv.upper_bound(max_price);
     if(ictpv0==ictpv1){
       std::cout<<"no cars in the range given"<<std::endl;
       return 0;
     }

     /* list them */

     std::cout<<"listing by method 1"<<std::endl;
     while(ictpv0!=ictpv1){
       std::cout<<**ictpv0;
       ++ictpv0;
     }
     std::cout<<std::endl;
   }

   {
     /* method 2 will give the same results */

     /* find the cars in the range given */

     boost::multi_index::index<car_table,price>::type::iterator ic0,ic1;
     ic0=get<price>(ct).lower_bound(min_price);
     ic1=get<price>(ct).upper_bound(max_price);

     /* construct a view with these */

     car_table_manufacturer_view ctmv;
     while(ic0!=ic1){
       ctmv.insert(&*ic0);
       ++ic0;
     }

     /* select the cars with given manufacturer */

     car_table_manufacturer_view::iterator ictmv0,ictmv1;
     boost::tuples::tie(ictmv0,ictmv1)=ctmv.equal_range(cm);
     if(ictmv0==ictmv1){
       std::cout<<"no cars in the range given"<<std::endl;
       return 0;
     }

     /* list them */

     std::cout<<"listing by method 2"<<std::endl;
     while(ictmv0!=ictmv1){
       std::cout<<**ictmv0;
       ++ictmv0;
     }
     std::cout<<std::endl;
   }

   return 0;
 }
	/* Boost.MultiIndex example: complex searches and foreign keys.
	*
	* Copyright 2003-2008 Joaquin M Lopez Munoz.
	* 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)
	*
	* See http://www.boost.org/libs/multi_index for library home page.
	*/

	#if !defined(NDEBUG)
	#define BOOST_MULTI_INDEX_ENABLE_INVARIANT_CHECKING
	#define BOOST_MULTI_INDEX_ENABLE_SAFE_MODE
	#endif

	#include <boost/multi_index_container.hpp>
	#include <boost/multi_index/member.hpp>
	#include <boost/multi_index/ordered_index.hpp>
	#include <boost/tuple/tuple.hpp>
	#include <iostream>
	#include <string>

	using boost::multi_index_container;
	using namespace boost::multi_index;

	/* This small utility that cascades two key extractors will be
	* used througout the example.
	*/

	template<class KeyExtractor1,class KeyExtractor2>
	struct key_from_key
	{
	public:
	typedef typename KeyExtractor1::result_type result_type;

	key_from_key(
	const KeyExtractor1& key1_=KeyExtractor1(),
	const KeyExtractor2& key2_=KeyExtractor2()):
	key1(key1_),key2(key2_)
	{}

	template<typename Arg>
	result_type operator()(Arg& arg)const
	{
	return key1(key2(arg));
	}

	private:
	KeyExtractor1 key1;
	KeyExtractor2 key2;
	};

	/* tags for accessing several indices defined below */

	struct model{};
	struct manufacturer{};
	struct price{};

	/* a manufacturer struct just holds the name of the manufacturer */

	struct car_manufacturer
	{
	std::string name;

	car_manufacturer(const std::string& name_):name(name_){}
	};

	/* car_model holds the model of car, its price and a pointer to the
	* manufacturer. The pointer thing eliminates duplication of the same
	* data among cars of the same manufacturer.
	*/

	struct car_model
	{
	std::string model;
	const car_manufacturer* manufacturer;
	int price;

	car_model(
	const std::string& model_,const car_manufacturer* manufacturer_,int price_):
	model(model_),manufacturer(manufacturer_),price(price_)
	{}

	friend std::ostream& operator<<(std::ostream& os,const car_model& c)
	{
	os<<c.manufacturer->name<<" "<<c.model<<" $"<<c.price<<std::endl;
	return os;
	}
	};

	/* see Compiler specifics: Use of member_offset for info on
	* BOOST_MULTI_INDEX_MEMBER
	*/

	/* Car manufacturers are stored in a multi_index_container with one single
	* index on the name member. This is functionally equivalent to an std::set,
	* though in this latter case we woud have to define a non-default comparison
	* predicate (with multi_index_container, member<> does the work for us.)
	*/

	typedef multi_index_container<
	car_manufacturer,
	indexed_by<
	ordered_unique<
	BOOST_MULTI_INDEX_MEMBER(car_manufacturer,std::string,name)
	>
	>
	> car_manufacturer_table;

	/* Define a multi_index_container of car_models with following indices:
	* - a unique index sorted by car_model::model,
	* - a non-unique index sorted by car_model::manufacturer; note the
	* non-standard manufacturer_extractor used.
	* - a non-unique index sorted by car_model::price.
	*/

	typedef multi_index_container<
	car_model,
	indexed_by<
	ordered_unique<
	tag<model>,BOOST_MULTI_INDEX_MEMBER(car_model,std::string,model)
	>,
	ordered_non_unique<
	tag<manufacturer>,
	key_from_key<
	BOOST_MULTI_INDEX_MEMBER(car_manufacturer,const std::string,name),
	BOOST_MULTI_INDEX_MEMBER(
	car_model,const car_manufacturer *,manufacturer)
	>
	>,
	ordered_non_unique<
	tag<price>,BOOST_MULTI_INDEX_MEMBER(car_model,int,price)
	>
	>
	> car_table;

	/* We call a view to a multi_index_container storing pointers instead of
	* actual objects. These views are used in the complex search performed
	* in the program. Resorting to multi_index of pointers eliminates
	* unnecessary copying of objects, and provides us with an opportunity
	* to show how BOOST_MULTI_INDEX_MEMBER can be used with pointer
	* type elements.
	* car_table_price_view indexes (pointers to) car_models by price.
	*/

	typedef multi_index_container<
	const car_model*,
	indexed_by<
	ordered_non_unique<BOOST_MULTI_INDEX_MEMBER(car_model,const int,price)>
	>
	> car_table_price_view;

	/* car_table_manufacturer_view indexes (pointers to) car_models by
	* manufacturer
	*/

	typedef multi_index_container<
	const car_model*,
	indexed_by<
	ordered_non_unique<
	key_from_key<
	BOOST_MULTI_INDEX_MEMBER(car_manufacturer,const std::string,name),
	BOOST_MULTI_INDEX_MEMBER(
	car_model,const car_manufacturer * const,manufacturer)
	>
	>
	>
	> car_table_manufacturer_view;

	int main()
	{
	car_manufacturer_table cmt;

	/* Fill the car_manufacturer table and keep pointers to the
	* elements inserted.
	*/

	const car_manufacturer * cadillac=
	&*(cmt.insert(car_manufacturer("Cadillac")).first);
	const car_manufacturer * ford =
	&*(cmt.insert(car_manufacturer("Ford")).first);
	const car_manufacturer * bmw =
	&*(cmt.insert(car_manufacturer("BMW")).first);
	const car_manufacturer * audi =
	&*(cmt.insert(car_manufacturer("Audi")).first);

	car_table ct;

	/* Fill the car_model_table. We use the previously initialized
	* pointers to the elements of cmt.
	*/

	ct.insert(car_model("XLR",cadillac,76200));
	ct.insert(car_model("SRX",cadillac,38690));
	ct.insert(car_model("CTS",cadillac,30695));
	ct.insert(car_model("Escalade",cadillac,54770));
	ct.insert(car_model("ESV",cadillac,57195));
	ct.insert(car_model("EXT",cadillac,52045));
	ct.insert(car_model("Deville",cadillac,45195));
	ct.insert(car_model("Seville",cadillac,46330));

	ct.insert(car_model("ZX2",ford,15355));
	ct.insert(car_model("Thunderbird",ford,43995));
	ct.insert(car_model("Windstar",ford,35510));
	ct.insert(car_model("Focus",ford,19630));
	ct.insert(car_model("Taurus",ford,24290));
	ct.insert(car_model("Mustang",ford,39900));
	ct.insert(car_model("Crown Victoria",ford,30370));

	ct.insert(car_model("325i",bmw,27800));
	ct.insert(car_model("545i",bmw,54300));
	ct.insert(car_model("745i",bmw,68500));
	ct.insert(car_model("M3 coupe",bmw,46500));
	ct.insert(car_model("Z4 roadster 3.0i",bmw,40250));
	ct.insert(car_model("X5 4.4i",bmw,49950));

	ct.insert(car_model("A4 1.8T",audi,25940));
	ct.insert(car_model("TT Coupe",audi,33940));
	ct.insert(car_model("A6 3.0",audi,36640));
	ct.insert(car_model("Allroad quattro 2.7T",audi,40640));
	ct.insert(car_model("A8 L",audi,69190));

	std::cout<<"enter a car manufacturer"<<std::endl;
	std::string cm;
	std::getline(std::cin,cm);

	/* check for manufacturer */

	car_manufacturer_table::iterator icm=cmt.find(cm);

	if(icm==cmt.end()){
	std::cout<<"no such manufacturer in the table"<<std::endl;
	return 0;
	}

	std::cout<<"enter a minimum price"<<std::endl;
	int min_price;
	std::cin>>min_price;
	std::cout<<"enter a maximum price"<<std::endl;
	int max_price;
	std::cin>>max_price;

	{
	/* method 1 */

	/* find all the cars for the manufacturer given */

	boost::multi_index::index<car_table,manufacturer>::type::iterator ic0,ic1;
	boost::tuples::tie(ic0,ic1)=get<manufacturer>(ct).equal_range(cm);

	/* construct a view (indexed by price) with these */

	car_table_price_view ctpv;
	while(ic0!=ic1){
	ctpv.insert(&*ic0);
	++ic0;
	}

	/* select the cars in the range given */

	car_table_price_view::iterator ictpv0=ctpv.lower_bound(min_price);
	car_table_price_view::iterator ictpv1=ctpv.upper_bound(max_price);
	if(ictpv0==ictpv1){
	std::cout<<"no cars in the range given"<<std::endl;
	return 0;
	}

	/* list them */

	std::cout<<"listing by method 1"<<std::endl;
	while(ictpv0!=ictpv1){
	std::cout<<**ictpv0;
	++ictpv0;
	}
	std::cout<<std::endl;
	}

	{
	/* method 2 will give the same results */

	/* find the cars in the range given */

	boost::multi_index::index<car_table,price>::type::iterator ic0,ic1;
	ic0=get<price>(ct).lower_bound(min_price);
	ic1=get<price>(ct).upper_bound(max_price);

	/* construct a view with these */

	car_table_manufacturer_view ctmv;
	while(ic0!=ic1){
	ctmv.insert(&*ic0);
	++ic0;
	}

	/* select the cars with given manufacturer */

	car_table_manufacturer_view::iterator ictmv0,ictmv1;
	boost::tuples::tie(ictmv0,ictmv1)=ctmv.equal_range(cm);
	if(ictmv0==ictmv1){
	std::cout<<"no cars in the range given"<<std::endl;
	return 0;
	}

	/* list them */

	std::cout<<"listing by method 2"<<std::endl;
	while(ictmv0!=ictmv1){
	std::cout<<**ictmv0;
	++ictmv0;
	}
	std::cout<<std::endl;
	}

	return 0;
	}