1. 防止类型收窄
(1)类型收窄:指的是导致数据内容发生变化或者精度丢失的隐式类型转换。
(2)类型收窄的几种情况:
①从浮点数隐式转换为整型数,如int i=2.2;
②从高精度浮点数隐式转换为低精度浮点数。如从long double转double或float。
③从整型数隐式转换为浮点数,并且超出浮点数的表示范围,如float=(unsigned long Long)-1,注意这表示将-1先强制转换为unsigned long long,再隐式转换为float。
④从整型数隐式转换为长度较短的整型数,并且超出其表示范围。如char x=65536。
(3)在C++98/03中,类型收窄编译器不会报错,而C++11中可以通过列表初始化来检查及防止类型收窄。
【编程实验】防止类型收窄
#include <iostream>
#include <vector>
using namespace std; int main()
{
int x1(5.3); //ok,x1=5
int x2 = 5.3; //ok,x2=5
int x3 {5.3}; //error:narrowing,gcc给的是warning
int x4 = {5.3};//同上
char c1{}; //ok
char c2{};//error:narrowing,gcc给的是warning
std::vector<int> v1{,,,,}; //ok
std::vector<int> v2{,,,,5.6}; //error:narrowing,gcc给的是warning float fa = 1e40; //ok,double->float
float fb = {1e40};//error,double->float,超过float能表示的范围
float fc = (unsigned long long)-; //将-1(0xFFFFFFFF)强转,再隐式转成float
float fd = {(unsigned long long)-}; //error
float fe = (unsigned long long); //将1强转,再隐式转成float
float ff = {(unsigned long long)}; //ok const int x = , y = ; //注意x,y被const修饰
char c = x; //ok
char d = {x};//error
char e = y; //ok
char f = {y};//ok。如果y为int型,则该行会出错。但由于加了const并且值为1。编译器
//认为这样的转换是安全的。 return ;
}
/*
*******************gcc上的测试结果*********************
e:\Study\C++11\8>g++ -std=c++11 test1.cpp
test1.cpp: In function 'int main()':
test1.cpp:9:13: error: narrowing conversion of '5.2999999999999998e+0' from 'double' to 'int' inside { } [-Wnarrowing]
test1.cpp:10:15: error: narrowing conversion of '5.2999999999999998e+0' from 'double' to 'int' inside { } [-Wnarrowing]
test1.cpp:12:15: error: narrowing conversion of '99999' from 'int' to 'char' inside { } [-Wnarrowing]
test1.cpp:14:33: error: narrowing conversion of '5.5999999999999996e+0' from 'double' to 'int' inside { } [-Wnarrowing]
test1.cpp:17:18: error: narrowing conversion of '1.0e+40' from 'double' to 'float' inside { } [-Wnarrowing]
test1.cpp:19:36: error: narrowing conversion of '18446744073709551615ull' from 'long long unsigned int' to 'float' inside { } [-Wnarrowing]
test1.cpp:24:11: warning: overflow in implicit constant conversion [-Woverflow]
test1.cpp:25:13: error: narrowing conversion of '1024' from 'int' to 'char' inside { } [-Wnarrowing] *******************vc2015上的测试结果*********************
test1.cpp(9): error C2397: 从“double”转换到“int”需要收缩转换
test1.cpp(10): error C2397: 从“double”转换到“int”需要收缩转换
test1.cpp(12): error C2397: 从“int”转换到“char”需要收缩转换
test1.cpp(14): error C2398: 元素“5”: 从“double”转换到“int”需要收缩转换
test1.cpp(17): error C2397: 从“double”转换到“float”需要收缩转换
test1.cpp(19): error C2397: 从“unsigned __int64”转换到“float”需要收缩转换
test1.cpp(25): error C2397: 从“const int”转换到“char”需要收缩转换
*/
2. explicit关键字
(1)explicit用于阻止编译器的隐式转换,一般用于修饰构造函数。
(2)C++98/03由于不能使用{}列表初始化,即隐式转换只发生在调用带一个参数的构造函数中。但C++11允许用{}列表初始化对象,这可能会隐式调用带多个参数的构造函数。
(3)C++11中,explicit可用于修饰带多个参数的构造函数以防止隐式转换。(注意C++98/03中explicit被用于修饰只带一个参数的构造函数,如果修饰带多个参数的构造函数则无效)
【编程实验】explicit修饰带多参的构造函数
#include <iostream>
using namespace std; class Test
{
public:
Test(int a, int b)
{
cout <<"Test(int a, int b)" << endl;
} Test(initializer_list<int>)
{
cout <<"Test(initializer_list<int>)" << endl;
} explicit Test(int a, int b, int c)
{
cout <<"explicit Test(int a, int b, int c)" << endl;
}
}; void func(const Test& t)
{ } struct Complex
{
int real, imag; //explicit
Complex(int re, int im = ):real(re), imag(im){} Complex operator+(const Complex& x)
{
return Complex((real+x.real),(imag+x.imag));
}
}; int main()
{
Complex c1(, );
Complex c2 = c1 + ;//会试图将5转换为Complex类型,所以会隐式调用构造
//函数。为了阻止这种行为,可以在构造函数前加explicit //1.由于Test带有一个initializer_list参数的构造函数,因此,下列
//用{}初始化的对象都会直接调用该构造函数。
//2.如果注释掉上述构造函数,则编译器会将{...}分解并传给相应的
//构造函数,如果找不到相应的带多参的构造函数,则直接报错。
Test t1(, ); //Test(int a, int b)
Test t2{, }; //Test(initializer_list<int>)
Test t3{, , }; //Test(initializer_list<int>)
Test t4 = {, }; //Test(initializer_list<int>)
Test t5 = {, , };//Test(initializer_list<int>)
Test t6(, , ); //ok,显式调用explicit Test(int a, int b, int c) func({, }); //Test(initializer_list<int>)
func({, , }); //Test(initializer_list<int>)
func(Test{, }); //Test(initializer_list<int>)
func(Test{, , }); //Test(initializer_list<int>) Test t11{, , , }; //Test(initializer_list<int>)
Test t12 = {, , , };//Test(initializer_list<int>)
Test t13 {}; //Test(initializer_list<int>) return ;
}
/*测试结果:
**************************不注释Test中带有一个initializer_list参数的构造函数***************************
e:\Study\C++11\8>g++ -std=c++11 test2.cpp
e:\Study\C++11\8>a.exe
Test(int a, int b)
Test(initializer_list<int>)
Test(initializer_list<int>)
Test(initializer_list<int>)
Test(initializer_list<int>)
explicit Test(int a, int b, int c)
Test(initializer_list<int>)
Test(initializer_list<int>)
Test(initializer_list<int>)
Test(initializer_list<int>)
Test(initializer_list<int>)
Test(initializer_list<int>)
Test(initializer_list<int>) **************************不注释Test中带有一个initializer_list参数的构造函数***************************
e:\Study\C++11\8>g++ -std=c++11 test2.cpp -fno-elide-constructors
test2.cpp: In function 'int main()':
test2.cpp:55:22: error: converting to 'Test' from initializer list would use explicit constructor 'Test::Test(int, int, int)'
Test t5 = {77, 5, 42}; test2.cpp:59:18: error: converting to 'const Test' from initializer list would use explicit constructor 'Test::Test(int, int, int)'
func({47, 11, 3}); test2.cpp:63:25: error: no matching function for call to 'Test::Test(<brace-enclosed initializer list>)'
Test t11{77, 5, 42, 500}; test2.cpp:64:28: error: could not convert '{77, 5, 42, 500}' from '<brace-enclosed initializer list>' to 'Test'
Test t12 = {77, 5, 42, 500}; test2.cpp:65:14: error: no matching function for call to 'Test::Test(<brace-enclosed initializer list>)'
Test t13 {10};
*/