C++11新特性之auto的使用

#include <vector> #include <map>  using namespace std;  int main(int argc, char *argv[], char *env[]) { // auto a;  // 错误，没有初始化表达式，无法推断出a的类型 // auto int a = 10; // 错误，auto临时变量的语义在C++11中已不存在, 这是旧标准的用法。   // 1. 自动帮助推导类型  auto a = 10;  auto c = 'A';  auto s("hello");   // 2. 类型冗长  map<int, map<int,int> > map_;  map<int, map<int,int>>::const_iterator itr1 = map_.begin();  const auto itr2 = map_.begin();  auto ptr = []()  {  std::cout << "hello world" << std::endl;  };   return 0; };  // 3. 使用模板技术时，如果某个变量的类型依赖于模板参数， // 不使用auto将很难确定变量的类型（使用auto后，将由编译器自动进行确定）。 template <class T, class U> void Multiply(T t, U u) {  auto v = t * u; } 

template <typename T1, typename T2> auto compose(T1 t1, T2 t2) -> decltype(t1 + t2) {  return t1+t2; } auto v = compose(2, 3.14); // v's type is double 

auto k = 5; auto* pK = new auto(k); auto** ppK = new auto(&k); const auto n = 6; 

auto m; // m should be intialized 

auto int p; // 这是旧auto的做法。 

void MyFunction(auto parameter){} // no auto as method argument  template<auto T> // utter nonsense - not allowed void Fun(T t){} 

int* p = new auto(0); //fine int* pp = new auto(); // should be initialized  auto x = new auto(); // Hmmm ... no intializer  auto* y = new auto(9); // Fine. Here y is a int* auto z = new auto(9); //Fine. Here z is a int* (It is not just an int) 

int value = 123; auto x2 = (auto)value; // no casting using auto  auto x3 = static_cast<auto>(value); // same as above 

auto x1 = 5, x2 = 5.0, x3='r'; // This is too much....we cannot combine like this 

const int i = 99; auto j = i; // j is int, rather than const int j = 100 // Fine. As j is not constant  // Now let us try to have reference auto& k = i; // Now k is const int& k = 100; // Error. k is constant  // Similarly with volatile qualifer 

int a[9]; auto j = a; cout<<typeid(j).name()<<endl; // This will print int*  auto& k = a; cout<<typeid(k).name()<<endl; // This will print int [9]