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typeid 是 C++ 的关键字之一,用于获取运行时类型信息,typeid操作符的返回结果是名为type_info的标准库类型的对象的引用(在头文件typeinfo中定义)。
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#include
#include
#include
#include
#include
#include
using namespace std;
int func(int a) {
return 0;
}
typedef int(*fun_ptr)(int);
class Base {
public:
Base() {}
};
int test_typeid1() {
char char_ = 'a';
unsigned char uchar_ = 'b';
short short_ = -16;
unsigned short ushort_ = 16;
int int_ = -1024;
unsigned int uint_ = 1024;
float float_ = 1.2f;
double double_ = 2.34;
long long_ = -12222;
long long llong_ = 12222;
int array[10] = { 0 };
int* array_ptr = array;
string string_("xiongwei");
vector int_vector;
fun_ptr f = func;
Base base_;
Base* pBase = new Base;
Base& rBase = base_;
cout << "char_ type: " << typeid(char_).name() << std::endl;
assert(typeid(char).name() == typeid(char_).name());
std::cout << "uchar type: " << typeid(uchar_).name() << std::endl; // uchar type: unsigned char
assert(typeid(unsigned char).name() == typeid(uchar_).name());
std::cout << "short_ type: " << typeid(short_).name() << std::endl; // short_ type: short
assert(typeid(short).name() == typeid(short_).name());
std::cout << "ushort_ type: " << typeid(ushort_).name() << std::endl; // ushort_ type: unsigned short
assert(typeid(unsigned short).name() == typeid(ushort_).name());
std::cout << "int_ type: " << typeid(int_).name() << std::endl; // int_ type: int
assert(typeid(int).name() == typeid(int_).name());
std::cout << "uint_ type: " << typeid(uint_).name() << std::endl; // uint_ type: unsigned int
assert(typeid(unsigned int).name() == typeid(uint_).name());
std::cout << "float_ type: " << typeid(float_).name() << std::endl; // float_ type: float
assert(typeid(float).name() == typeid(float_).name());
std::cout << "double_ type: " << typeid(double_).name() << std::endl; // double_ type: double
assert(typeid(double).name() == typeid(double_).name());
std::cout << "long_ type: " << typeid(long_).name() << std::endl; // long_ type: long
assert(typeid(long).name() == typeid(long_).name());
std::cout << "llong_ type: " << typeid(llong_).name() << std::endl; // llong_ type: __int64
assert(typeid(long long).name() == typeid(llong_).name());
std::cout << "array[] type: " << typeid(array).name() << std::endl; // array[] type: int [10]
assert(typeid(int[10]).name() == typeid(array).name());
std::cout << "array_header type: " << typeid(array_ptr).name() << std::endl; // array_header type: int * __ptr64
assert(typeid(int*).name() == typeid(array_ptr).name());
std::cout << "string_ type: " << typeid(string_).name() << std::endl; // string_ type: class std::basic_string, class std::allocator>
assert(typeid(std::string).name() == typeid(string_).name());
std::cout << "int_vector type: " << typeid(int_vector).name() << std::endl; // int_vector type: class std::vector>
assert(typeid(std::vector).name() == typeid(int_vector).name());
std::cout << "f type: " << typeid(f).name() << std::endl; // f type : int(__cdecl*)(int)
assert(typeid(int(*)(int)).name() == typeid(f).name());
std::cout << "Base_ type: " << typeid(base_).name() << std::endl; // Base_ type: class Base
assert(typeid(class Base).name() == typeid(base_).name());
std::cout << "pBase_ type: " << typeid(pBase).name() << std::endl; // pBase_ type: class Base * __ptr64
assert(typeid(class Base*).name() == typeid(pBase).name());
std::cout << "rBase_ type: " << typeid(rBase).name() << std::endl; // Base__ type: class Base
assert(typeid(class Base&).name() == typeid(rBase).name());
return 0;
}
void test_typeid2() {
struct Base {
}; // non-polymorphic
struct Derived : Base {
};
struct Base2 {
virtual void foo() {}
}; // polymorphic
struct Derived2 : Base2 {
};
int myint = 50;
std::string mystr = "string";
double *mydoubleptr = NULL;
std::cout << "myint has type: " << typeid(myint).name() << '\n' // myint has type: int
<< "mystr has type: " << typeid(mystr).name() << '\n' // mystr has type: class std::basic_string, class std::allocator>
<< "mydoubleptr has type: " << typeid(mydoubleptr).name() << '\n'; // mydoubleptr has type: double * __ptr64
// std::cout << myint is a glvalue expression of polymorphic type; it is evaluated
const std::type_info& r1 = typeid(std::cout); // 50
std::cout << "#std::cout<>
const std::type_info& r2 = typeid(std::printf("%d\n", myint));
std::cout << "printf(\"%d\\n\",myint) has type : " << r2.name() << '\n'; // printf(\"%d\\n\",myint) has type : int
Derived d1;
Base& b1 = d1;
std::cout << "reference to non-polymorphic base: " << typeid(b1).name() << '\n'; // reference to non-polymorphic base: struct 'int __cdecl test_typeid2(void)'::'2'::Base
Derived2 d2;
Base2& b2 = d2;
std::cout << "reference to polymorphic base: " << typeid(b2).name() << '\n'; // reference to polymorphic base: struct 'int __cdecl test_typeid2(void)'::'3'::Derived2
try {
// dereferencing a null pointer: okay for a non-polymoprhic expression
std::cout << "mydoubleptr points to " << typeid(*mydoubleptr).name() << '\n'; // mydoubleptr points to double
// dereferencing a null pointer: not okay for a polymorphic lvalue
Derived2* bad_ptr = NULL;
std::cout << "bad_ptr points to..."; // bad_ptr points to...
std::cout << typeid(*bad_ptr).name() << '\n';
}
catch (const std::bad_typeid& e) {
std::cout << " caught " << e.what() << '\n'; // caught Attempted a typeid of NULL pointer!
}
}
template < typename T >
T max(T arg1, T arg2) {
std::cout << typeid(T).name() << "s compared." << std::endl;
return (arg1 > arg2 ? arg1 : arg2);
}
int test_typeid3()
{
class Base {
public:
virtual void vvfunc() {}
};
class Derived : public Base {};
Derived* pd = new Derived;
Base* pb = pd;
std::cout << typeid(pb).name() << std::endl; //prints "class Base *" // class 'int __cdecl test_typeid3(void)'::'2'::Base * __ptr64
std::cout << typeid(*pb).name() << std::endl; //prints "class Derived" // class 'int __cdecl test_typeid3(void)'::'2'::Derived
std::cout << typeid(pd).name() << std::endl; //prints "class Derived *" // class 'int __cdecl test_typeid3(void)'::'2'::Derived * __ptr64
std::cout << typeid(*pd).name() << std::endl; //prints "class Derived" // class 'int __cdecl test_typeid3(void)'::'2'::Derived
delete pd;
float a = 1.2, b = 3.4;
max(a, b); // floats compared
max(1,2);
return 0;
}
int main() {
test_typeid1();
cout << "---------------------------------------" << endl;
test_typeid2();
test_typeid3();
system("pause");
return 0;
}
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