Boost::tuple
一 Boost::tuple
很多的時候我們經常需要為我們的函數返回多個值,一般的做法是通過傳入非常量的指針或引用,但是這樣的話可能可讀性就要差一些,使用者可能需要確切的文檔才能確定到底哪個是返回值,為了更好的可讀性,我們可以使用class或struct來封裝我們要返回的多個值,然后返回封裝struct或class,但是使用這種方法的弊端就是增加的程序的代碼量,最好的解決辦法其實我們可以通過一種匿名的struct或class來解決這個問題。
Boost::tuple就為我們提供了一種類似于匿名struct的方法為我們解決函數的多個返回值的問題。既增強了代碼的可讀性有不增加代碼量。其實在STL中已經有這樣的特例,std::pair其實就是boost::tuple的2個參數的特例,對boost::tuple你可以綁定更多的參數,或者你可以迭代實現無限多參數的情況。
二 源碼剖析
頭文件: "boost/tuple/tuple.hpp",它包含了 tuple 類模板及庫的核心部分。
頭文件: "boost/tuple/tuple_io.hpp",包含了對 tuple 的輸入輸出操作符。
頭文件: "boost/tuple/tuple_comparison.hpp",包含了 tuple 的關系操作符。
為了方便使用,Tuple 庫中有些名字位于名字空間 boost:如 tuple, make_tuple, tie, 和 get.
函數說明:
1)構造函數
2)拷貝構造函數
3)t.get<N>()或get<N>(t) ,取得第N個值
4)make_tuple ,生成tuple
5)tie , 生成都是ref的tuple
6) 重載比較運算符 ,可以直接用來比較
7)重載輸入輸出運算符 ,可以直接使用IO
8)get_head()和get_tail()函數,用來取得值
9)length<>和element<>用來得到tuple的size和第N個的值類型
10)如果使用boost::TR1,則還可以使用std::tr1::tuple_size(),std::tr1::tuple_element(),分別用來得到tuple的size和第N個值的類型。
三 實例
1)tuple的構造,拷貝構造函數,get成員函數,get全局函數,make_tuple全局函數。
#include <string>
#include <iostream>
#include "boost/tuple/tuple.hpp"
boost::tuples::tuple<int,double> get_values()
{
return boost::make_tuple(6,12.0);
}
class base
{
public:
virtual ~base() {};
virtual void test()
{
std::cout << "base::test()\n";
}
};
class derived : public base
{
public:
virtual void test() { std::cout << "derived::test()\n"; }
};
void main()
{
// test for constructor
boost::tuple<int,double,std::string> triple(42,3.14,"My first tuple!");
boost::tuple<short,int,long> another;
boost::tuple<int,int,double> another2(10);
// test for make_tuple , ref and cref function
int plain=42;
int& ref=plain;
const int& cref=ref;
boost::tuples::tuple<int> plaint(plain);
plaint = boost::make_tuple(plain);
plaint = boost::make_tuple(ref);
plaint = boost::make_tuple(cref);
boost::tuples::tuple<int&> reft(ref);
boost::make_tuple(boost::ref(plain));
boost::make_tuple(boost::ref(ref));
boost::make_tuple(boost::ref(cref));
boost::tuples::tuple<const int&> creft(cref);
boost::make_tuple(boost::cref(plain));
boost::make_tuple(boost::cref(ref));
boost::make_tuple(boost::cref(cref));
// test for get function
boost::tuple<int,double,std::string> triple2(42,3.14,"The amazing tuple!");
int i=boost::tuples::get<0>(triple2);
double d=triple2.get<1>();
std::string s=boost::get<2>(triple2);
// test for function return tuple
boost::tuples::tuple<int,double> value = get_values();
// test for copy constructor
boost::tuple<int,std::string,derived> tup1(-5,"Tuples");
boost::tuple<unsigned int,std::string,base> tup2;
tup2=tup1;
tup2.get<2>().test();
std::cout << "Interesting value: " << tup2.get<0>() << '\n';
const boost::tuple<double,std::string,base> tup3(tup2);
//tup3.get<0>()=3.14; // error, because tup3 is const
boost::tuples::tuple<int,int,double> tuple1(10,30,20.000);
int head = tuple1.get_head();
int tailhead = tuple1.get_tail().get_head();
double tail = tuple1.get_tail().get_tail().get_head();
// for TR1
/**//*boost::tuples::tuple<double, char, int> tuplesize;
std::tr1::tuple_size();
std::tr1::tuple_element();*/
}
2)使用tie函數模版來生成對ref的綁定的tuple,tuple的比較使用,tuple的輸入輸出:
#include <string>
#include <iostream>
#include <vector>
#include <algorithm>
#include "boost/tuple/tuple.hpp"
#include "boost/tuple/tuple_comparison.hpp"
#include "boost/tuple/tuple_io.hpp"
template <int Index>
class element_less
{
public:
template <typename Tuple>
bool operator()(const Tuple& lhs,const Tuple& rhs) const
{
return boost::get<Index>(lhs)<boost::get<Index>(rhs);
}
};
int main()
{
// Tiers are tuples, where all elements are of non-const reference types.
// They are constructed with a call to the tie function template
int i; char c; double d;
boost::tie(i, c, d) = boost::make_tuple(1,'a', 5.5);
std::cout << i << " " << c << " " << d << std::endl;
// test ignore
char ch;
boost::tie(boost::tuples::ignore, ch) = std::make_pair(1, 'a');
std::cout << ch << std::endl;
// test for comparison
boost::tuple<int,std::string> tup1(11,"Match?");
boost::tuple<short,std::string> tup2(12,"Match?");
std::cout << std::boolalpha;
std::cout << "Comparison: tup1 is less than tup2\n";
std::cout << "tup1==tup2: " << (tup1==tup2) << '\n';
std::cout << "tup1!=tup2: " << (tup1!=tup2) << '\n';
std::cout << "tup1<tup2: " << (tup1<tup2) << '\n';
std::cout << "tup1>tup2: " << (tup1>tup2) << '\n';
std::cout << "tup1<=tup2: " << (tup1<=tup2) << '\n';
std::cout << "tup1>=tup2: " << (tup1>=tup2) << '\n';
tup2.get<0>()=boost::get<0>(tup1); //tup2=tup1 also works
std::cout << "\nComparison: tup1 equals tup2\n";
std::cout << "tup1==tup2: " << (tup1==tup2) << '\n';
std::cout << "tup1!=tup2: " << (tup1!=tup2) << '\n';
std::cout << "tup1<tup2: " << (tup1<tup2) << '\n';
std::cout << "tup1>tup2: " << (tup1>tup2) << '\n';
std::cout << "tup1<=tup2: " << (tup1<=tup2) << '\n';
std::cout << "tup1>=tup2: " << (tup1>=tup2) << '\n';
//test tuple using in the container
typedef boost::tuple<short,int,long,float,double,long double> num_tuple;
std::vector<num_tuple> vec;
vec.push_back(num_tuple(6,2));
vec.push_back(num_tuple(7,1));
vec.push_back(num_tuple(5));
std::sort(vec.begin(),vec.end(),element_less<1>());
std::cout << "\nAfter sorting: " << vec[0].get<0>() << '\n' << vec[1].get<0>() << '\n' << vec[2].get<0>() << '\n\n';
// test for io
boost::tuple<float, int, std::string> a(1.0f, 2, std::string("Howdy folks!"));
std::cout << std::endl << a << std::endl;
boost::tuple<int, int, int> ii;
std::cin >> ii;
std::cout << boost::tuples::set_open('[') << boost::tuples::set_close(']')<< boost::tuples::set_delimiter(':');
std::cout << ii << std::endl;
boost::tuples::tuple<int,int,double> tuple1;
int head = tuple1.get_head();
double tail = tuple1.get_tail();
}
四 注意
1)函數 make_tuple 類似于 std::make_pair. 缺省情況下,make_tuple 設置元素類型為非const, 非引用的,即是最簡單的、根本的參數類
型。
2)為了使一個 tuple 的元素設為引用類型,你要使用函數 boost::ref, 它來自另一個名為 Boost.Ref 的 Boost 庫。
3)如果元素需要是 const 引用的,就使用來自 Boost.Ref 的 boost::cref。
4)如果你要使綁定的每個元素變量都為ref,則可以使用tie函數。
五 參考
1)Beyond the C++ Standard Library: An Introduction to Boost
2)boost在線document