lambda表达式
lambda表达式又称为匿名表达式,是C11提出的新语法。[]存储lambda表达式要捕获的值,()内的参数为形参,可供外部调用传值。lambda表达式可以直接调用
[](string name)
{
cout << "this is anonymous" << endl;
cout << "hello " << name << endl;
}("zack");
上述代码定义了一个匿名函数后直接调用。我们可以通过auto初始化一个变量存储lambda表达式
auto fname = [](string name)
{
cout << "this is auto " << endl;
cout << "hello " << name << endl;
};
fname("Rolin");
通过auto定义fname,然后存储了lambda表达式,之后调用fname即可。也可以通过函数指针的方式接受lambda表达式
typedef void (*P_NameFunc)(string name);
P_NameFunc fname2 = [](string name)
{
cout << "this is P_NameFunc " << endl;
cout << "hello " << name << endl;
};
fname2("Vivo");
P_NameFunc定义了fname2函数指针接受了lambda表达式。也可以通过function对象接受lambda表达式,function类是C11新增的语法。
function<void(string)> funcName;
funcName = [](string name)
{
cout << "this is function " << endl;
cout << "hello " << name << endl;
};
funcName("Uncle Wang");
用一个function对象接受了lambda表达式,同样可以调用该function对象funcName达到调用lambda的效果。
谈谈lambda的捕获
1 值捕获
int age = 33;
string name = "zack";
int score = 100;
string job = "softengineer";
[age, name](string name_)
{
cout << "age is " << age << " name is " << name << " self-name is " << name_ << endl;
}("Novia");
上述lambda表达式捕获了age和name,是以值的方式来捕获的。所以无法在lambda表达式内部修改age和name的值,如果修改age和name,编译器会报错,提示无法修改const常量,因为age和name是以值的方式被捕获的。 2 引用捕获
int age = 33;
string name = "zack";
int score = 100;
string job = "softengineer";
[&age, &name](string name_)
{
cout << "age is " << age << " name is " << name << " self-name is " << name_ << endl;
name = "Xiao Li";
age = 18;
}("Novia");
[]里age和name前边添加了&,此时age和name是以引用方式捕获的。所以可以在lambda表达式中修改age和name的值。 C++的lambda表达式虽然可以捕获局部变量的引用,达到类似闭包的效果,但不是真的闭包,golang和python等语言通过闭包捕获局部变量后可以增加局部变量的声明周期,C++无法做到这一点,所以下面的调用会出现崩溃。
vector<function<void(string)>> vec_Funcs;
void use_lambda2()
{
int age = 33;
string name = "zack";
int score = 100;
string job = "softengineer";
vec_Funcs.push_back([age, name](string name_)
{ cout << "this is value catch " << endl;
cout << "age is " << age << " name is " << name << " self-name is " << name_ << endl; });
vec_Funcs.push_back([&age, &name](string name_)
{ cout << "this is referenc catch" << endl;
cout << "age is " << age << " name is " << name << " self-name is " << name_ << endl; });
}
void use_lambda3()
{
for (auto f : vec_Funcs)
{
f("zack");
}
}
int main(){
use_lambda2();
use_lambda3();
}
use_lambda2中将lambda表达式存储在function类型的vector里,当use_lambda2结束后,里边的局部变量都被释放了,而vector中的lambda表达式还存储着局部变量的引用,在调用use_lambda3时调用lambda表达式,此时访问局部变量已经被释放了,所以导致程序崩溃。 3 全部用值捕获,name用引用捕获
int age = 33;
string name = "zack";
int score = 100;
string job = "softengineer";
[=, &name]()
{
cout << "age is " << age << " name is " << name << " score is " << score << " job is " << job << endl;
name = "Cui Hua";
}();
通过=表示所有变量都以值的方式捕获,如果希望某个变量以引用方式捕获则单独在这个变量前加&。 4 全部用引用捕获,只有name用值捕获
int age = 33;
string name = "zack";
int score = 100;
string job = "softengineer";
[&, name]()
{
cout << "age is " << age << " name is " << name << " score is " << score << " job is " << job << endl;
}();
通过&方式表示所有变量都已引用方式捕获,如果希望某个变量以值方式捕获则单独在这个变量前加=。
万能的function
我们可以用function存储形参和返回值相同的一类函数指针,可调用对象,lambda表达式等。
void use_function()
{
list<function<void(string)>> list_Funcs;
list_Funcs.push_back(FuncObj());
list_Funcs.push_back([](string str)
{ cout << "this is lambda call " << str << endl; });
list_Funcs.push_back(globalFun);
for (const auto &f : list_Funcs)
{
f("hello zack");
}
}
bind操作
C11同样提供了bind操作,将原函数的几个参数通过bind绑定传值,返回一个新的可调用对象。
auto newfun1 = bind(globalFun2, placeholders::_1, placeholders::_2, 98, "worker");
newfun1("Lily", 22);
newfun1("Lucy", 28, 100, "doctor");
auto newfun2 = bind(globalFun2, "zack", placeholders::_1, 100, placeholders::_2);
newfun2(33, "engineer");
auto newfun3 = bind(globalFun2, "zack", placeholders::_2, 100, placeholders::_1);
newfun3("coder", 33);
placeholders表示占位符,_1表示新生成函数的第一个参数, _2表示新生成函数的第二个参数,将这些参数传递给原函数达到占位的效果,原函数的其余参数通过bind绑定固定值。 接下来定义类
class BindTestClass
{
public:
BindTestClass(int num_, string name_) : num(num_), name(name_) {}
static void StaticFun(const string &str, int age);
void MemberFun(const string &job, int score);
public:
int num;
string name;
};
实现静态函数和成员函数
void BindTestClass::StaticFun(const string &str, int age)
{
cout << "this is static function" << endl;
cout << "name is " << str << endl;
cout << "age is " << age << endl;
}
void BindTestClass::MemberFun(const string &job, int score)
{
cout << "this is member function" << endl;
cout << "name is " << name << endl;
cout << "age is " << num << endl;
cout << "job is " << job << endl;
cout << "score is " << score << endl;
}
我们通过bind绑定静态成员函数
auto staticbind = bind(&BindTestClass::StaticFun, placeholders::_1, 33);
staticbind("zack");
新生成的staticbind函数可以直接传递一个参数zack就完成了调用。接下来用bind绑定成员函数
BindTestClass bindTestClass(33, "zack");
auto memberbind = bind(BindTestClass::MemberFun, &bindTestClass, placeholders::_1, placeholders::_2);
memberbind("coder", 100);
auto memberbind2 = bind(BindTestClass::MemberFun, placeholders::_3, placeholders::_1, placeholders::_2);
memberbind2("coder", 100, &bindTestClass);
auto numbind = bind(&BindTestClass::num, placeholders::_1);
std::cout << numbind(bindTestClass) << endl;
当然也可以直接用function对象接受bind返回的结果
function<void(int, string)> funcbind = bind(globalFun2, "zack", placeholders::_1, 100, placeholders::_2);
funcbind(33, "engineer");
function<void(string, int)> funcbind2 = bind(BindTestClass::MemberFun, &bindTestClass, placeholders::_1, placeholders::_2);
funcbind2("docker", 100);
function<void(string, int, BindTestClass *)> funcbind3 = bind(BindTestClass::MemberFun, placeholders::_3, placeholders::_1, placeholders::_2);
funcbind3("driver", 100, &bindTestClass);
function<void(BindTestClass &, const string &, int)> functomem = BindTestClass::MemberFun;
functomem(bindTestClass, "functomem", 88);
function<void(const string &)> funbindstatic = bind(&BindTestClass::StaticFun, placeholders::_1, 33);
funbindstatic("Rolis");
lambda和bind的使用就介绍到这里 源码链接:https://gitee.com/secondtonone1/cpplearn 视频链接: https://www.bilibili.com/video/BV15S4y1Y7no
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