我只是在玩启用了 -std=c++11 的 g++ 4.7(后来的快照之一).我试图编译一些我现有的代码库,一个失败的案例让我有些困惑.
I was just playing around with g++ 4.7 (one of the later snapshots) with -std=c++11 enabled. I tried to compile some of my existing code base and one case that failed somewhat confuses me.
如果有人能解释发生了什么,我将不胜感激.
I would appreciate if someone can explain what is going on.
代码如下:
#include <utility>
#include <iostream>
#include <vector>
#include <string>
int main ( )
{
std::string s = "abc";
// 1 ok
std::pair < std::string, int > a = std::make_pair ( s, 7 );
// 2 error on the next line
std::pair < std::string, int > b = std::make_pair < std::string, int > ( s, 7 );
// 3 ok
std::pair < std::string, int > d = std::pair < std::string, int > ( s, 7 );
return 0;
}
我知道 make_pair 意味着用作 (1) 情况(如果我指定类型,那么我不妨使用 (3)),但我不明白为什么在这种情况下它失败了.
I understand that make_pair is meant to be used as the (1) case (if I specify the types, then I might as well use (3)), but I don't understand why it's failing in this case.
确切的错误是:
test.cpp: In function ‘int main()’:
test.cpp:11:83: error: no matching function for call to ‘make_pair(std::string&, int)’
test.cpp:11:83: note: candidate is:
In file included from /gcc4.7/usr/local/lib/gcc/i686-pc-linux-gnu/4.7.0/../../../../include/c++/4.7.0/utility:72:0,
from test.cpp:1:
/gcc4.7/usr/local/lib/gcc/i686-pc-linux-gnu/4.7.0/../../../../include/c++/4.7.0/bits/stl_pair.h:274:5:
note: template<class _T1, class _T2> constexpr std::pair<typename std::__decay_and_strip<_T1>::__type, typename std::__decay_and_strip<_T2>::__type> std::make_pair(_T1&&, _T2&&)
/gcc4.7/usr/local/lib/gcc/i686-pc-linux-gnu/4.7.0/../../../../include/c++/4.7.0/bits/stl_pair.h:274:5:
note: template argument deduction/substitution failed:
test.cpp:11:83: note: cannot convert ‘s’ (type ‘std::string {aka std::basic_string<char>}’) to type ‘std::basic_string<char>&&’
同样,这里的问题只是发生了什么?"我知道我可以通过删除模板规范来解决这个问题,但我只是想知道这里到底发生了什么问题.
Again, the question here is just "what's going on?" I know that I can fix the problem by removing the template specification, but I just want to know what's failing here under the covers.
这不是 std::make_pair
的用途;您不应该显式指定模板参数.
This is not how std::make_pair
is intended to be used; you are not supposed to explicitly specify the template arguments.
C++11 std::make_pair
接受两个参数,类型为 T&&
和 U&&
,其中T
和 U
是模板类型参数.实际上,它看起来像这样(忽略返回类型):
The C++11 std::make_pair
takes two arguments, of type T&&
and U&&
, where T
and U
are template type parameters. Effectively, it looks like this (ignoring the return type):
template <typename T, typename U>
[return type] make_pair(T&& argT, U&& argU);
当您调用 std::make_pair
并明确指定模板类型参数时,不会发生参数推导.相反,类型参数被直接替换到模板声明中,产生:
When you call std::make_pair
and explicitly specify the template type arguments, no argument deduction takes place. Instead, the type arguments are substituted directly into the template declaration, yielding:
[return type] make_pair(std::string&& argT, int&& argU);
请注意,这两种参数类型都是右值引用.因此,它们只能绑定到右值.这对于您传递的第二个参数 7
来说不是问题,因为这是一个右值表达式.然而,s
是一个左值表达式(它不是临时的,也不会被移动).这意味着函数模板与您的参数不匹配,这就是您收到错误的原因.
Note that both of these parameter types are rvalue references. Thus, they can only bind to rvalues. This isn't a problem for the second argument that you pass, 7
, because that is an rvalue expression. s
, however, is an lvalue expression (it isn't a temporary and it isn't being moved). This means the function template is not a match for your arguments, which is why you get the error.
那么,为什么当您没有明确指定模板参数列表中的 T
和 U
是什么时它会起作用?简而言之,右值引用参数在模板中是特殊的.部分由于称为 reference collapsing 的语言功能,一个右值引用A&&
类型的参数,其中A
是模板类型参数,可以绑定到任何类型的A
.
So, why does it work when you don't explicitly specify what T
and U
are in the template argument list? In short, rvalue reference parameters are special in templates. Due in part to a language feature called reference collapsing, an rvalue reference parameter of type A&&
, where A
is a template type parameter, can bind to any kind of A
.
无论 A
是左值、右值、const 限定、volatile 限定还是非限定,A&&
都可以绑定到那个对象(同样,当且仅当 A
本身是一个模板参数).
It doesn't matter whether the A
is an lvalue, an rvalue, const-qualified, volatile-qualified, or unqualified, an A&&
can bind to that object (again, if and only if A
is itself a template parameter).
在您的示例中,我们调用:
In your example, we make the call:
make_pair(s, 7)
这里,s
是 std::string
类型的左值,7
是 int
类型的右值>.由于您没有为函数模板指定模板参数,因此执行模板参数推导以找出参数是什么.
Here, s
is an lvalue of type std::string
and 7
is an rvalue of type int
. Since you do not specify the template arguments for the function template, template argument deduction is performed to figure out what the arguments are.
将左值s
绑定到T&&
,编译器推导出T
为std::string&
,产生一个 std::string& 类型的参数&&
.但是,没有对引用的引用,所以这个双重引用"不存在.折叠成 std::string&
.s
是匹配项.
To bind s
, an lvalue, to T&&
, the compiler deduces T
to be std::string&
, yielding an argument of type std::string& &&
. There are no references to references, though, so this "double reference" collapses to become std::string&
. s
is a match.
将7
绑定到U&&
很简单:编译器可以推导出U
为int
,产生一个 int&&
类型的参数,它成功绑定到 7
因为它是一个右值.
It's simple to bind 7
to U&&
: the compiler can deduce U
to be int
, yielding a parameter of type int&&
, which binds successfully to 7
because it is an rvalue.
这些新的语言功能有很多微妙之处,但如果您遵循一个简单的规则,那就很容易了:
There are lots of subtleties with these new language features, but if you follow one simple rule, it's pretty easy:
如果一个模板参数可以从函数参数中推导出来,就让它推导出来.除非绝对必须,否则不要明确提供参数.
If a template argument can be deduced from the function arguments, let it be deduced. Don't explicitly provide the argument unless you absolutely must.
让编译器来完成繁重的工作,无论如何,99.9% 的时间它都会是您想要的.当它不是您想要的时,您通常会收到一个易于识别和修复的编译错误.
Let the compiler do the hard work, and 99.9% of the time it'll be exactly what you wanted anyway. When it isn't what you wanted, you'll usually get a compilation error which is easy to identify and fix.
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