什么时候是“typename"需要关键字吗?

When is the quot;typenamequot; keyword necessary?(什么时候是“typename需要关键字吗?)
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问题描述

可能的重复:
正式来说,typename 是做什么用的?
我必须将模板放在哪里以及为什么和 typename 关键字?

考虑下面的代码:

template<class K>
class C {
    struct P {};
    vector<P> vec;
    void f();
};

template<class K> void C<K>::f() {
    typename vector<P>::iterator p = vec.begin();
}

为什么在这个例子中需要typename"关键字?还有其他必须指定typename"的情况吗?

Why is the "typename" keyword necessary in this example? Are there any other cases where "typename" must be specified?

推荐答案

简短回答:每当引用作为依赖名称的嵌套名称时,即嵌套在具有未知参数的模板实例中.

Short answer: Whenever referring to a nested name that is a dependent name, i.e. nested inside a template instance with unknown parameter.

长答案:C++ 中有三层实体:值、类型和模板.所有这些都可以有名称,仅凭名称并不能告诉您它是实体的哪一层.相反,有关名称实体性质的信息必须从上下文中推断出来.

Long answer: There are three tiers of entities in C++: values, types, and templates. All of those can have names, and the name alone doesn't tell you which tier of entity it is. Rather, the information about the nature of a name's entity must be inferred from the context.

当此推断不可能时,您必须指定它:

Whenever this inference is impossible, you have to specify it:

template <typename> struct Magic; // defined somewhere else

template <typename T> struct A
{
  static const int value = Magic<T>::gnarl; // assumed "value"

  typedef typename Magic<T>::brugh my_type; // decreed "type"
  //      ^^^^^^^^

  void foo() {
    Magic<T>::template kwpq<T>(1, 'a', .5); // decreed "template"
    //        ^^^^^^^^
  }
};

这里的名称 Magic::gnarlMagic::brughMagic::kwpq必须加以解释,因为无法判断:由于 Magic 是一个模板,Magic 类型的 性质 取决于在 T 上——例如,可能存在与主模板完全不同的特化.

Here the names Magic<T>::gnarl, Magic<T>::brugh and Magic<T>::kwpq had to be expliciated, because it is impossible to tell: Since Magic is a template, the very nature of the type Magic<T> depends on T -- there may be specializations which are entirely different from the primary template, for example.

使 Magic::gnarl 成为依赖名称的原因是我们位于模板定义中,其中 T 是未知的.如果我们使用 Magic,情况会有所不同,因为编译器知道(你保证!)Magic 的完整定义.

What makes Magic<T>::gnarl a dependent name is the fact that we're inside a template definition, where T is unknown. Had we used Magic<int>, this would be different, since the compiler knows (you promise!) the full definition of Magic<int>.

(如果您想自己测试,这里有一个您可以使用的 Magic 示例定义.请原谅在专业化中为简洁起见使用 constexpr;如果您有一个旧的编译器,可以随意将静态成员常量声明更改为旧式 pre-C++11 形式.)

(If you want to test this yourself, here's a sample definition of Magic that you can use. Pardon the use of constexpr in the specializaation for brevity; if you have an old compiler, feel free to change the static member constant declaration to the old-style pre-C++11 form.)

template <typename T> struct Magic
{
  static const T                    gnarl;
  typedef T &                       brugh;
  template <typename S> static void kwpq(int, char, double) { T x; }
};
template <> struct Magic<signed char>
{
  // note that `gnarl` is absent
  static constexpr long double brugh = 0.25;  // `brugh` is now a value
  template <typename S> static int kwpq(int a, int b) { return a + b; }
};

用法:

int main()
{
  A<int> a;
  a.foo();

  return Magic<signed char>::kwpq<float>(2, 3);  // no disambiguation here!
}

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