127

When should I explicitly write this->member in a method of a class?

7
  • 21
    I'm sure this is a dupe, but it is of course unsearchable. Not for the first time, I wish the this pointer was called self!
    – anon
    Jun 14, 2009 at 18:11
  • 6
    Not only that, I wish it were a reference.
    – rlbond
    Jun 14, 2009 at 18:25
  • 2
    Same. :| Here is why, by the way: research.att.com/~bs/bs_faq2.html#this
    – GManNickG
    Jun 14, 2009 at 18:26
  • 11
    This method obviously doesn't work if the person doesn't know the answer.
    – ASk
    Jun 15, 2009 at 16:10
  • 5
    @JohnH.: Hm, looks like research.att.com/~bs/ is now stroustrup.com. New link: stroustrup.com/bs_faq2.html#this
    – GManNickG
    Jul 17, 2016 at 19:29

12 Answers 12

149

Usually, you do not have to, this-> is implied.

Sometimes, there is a name ambiguity, where it can be used to disambiguate class members and local variables. However, here is a completely different case where this-> is explicitly required.

Consider the following code:

template<class T>
struct A {
   T i;
};

template<class T>
struct B : A<T> {
    T foo() {
        return this->i; //standard accepted by all compilers 
        //return i; //clang and gcc will fail
        //clang 13.1.6: use of undeclared identifier 'i'
        //gcc 11.3.0: 'i' was not declared in this scope
        //Microsoft C++ Compiler 2019 will accept it
    }

};

int main() {
    B<int> b;
    b.foo();
}

If you omit this->, some compilers do not know how to treat i. In order to tell it that i is indeed a member of A<T>, for any T, the this-> prefix is required.

Note: it is possible to still omit this-> prefix by using:

template<class T>
struct B : A<T> {
    int foo() {
        return A<T>::i; // explicitly refer to a variable in the base class 
        //where 'i' is now known to exist
    }

};
5
  • 11
    This might be a silly question, but I don't understand why i might not exist in A. Could I get an example? Dec 19, 2013 at 1:08
  • 1
    @CamJackson I tried the code on visual studio. the results are the same no matter "this->" existed or not. Any idea?
    – Peng Zhang
    Jan 12, 2014 at 10:57
  • 15
    @CamJackson: One can specialize classes on type: template<> struct A<float> { float x; };
    – Macke
    Dec 3, 2014 at 7:33
  • "Note: it is possible to still omit this-> prefix by using using" Then you need to be careful with virtual functions.
    – L. F.
    Apr 26, 2019 at 13:20
  • 5
    @PengZhang: The Visual Studio compiler used to ignore the need for "this" in these cases, which is not C++-Standard compliant, see Microsoft Docs for details.
    – Kyrion
    Dec 5, 2019 at 15:27
37

If you declare a local variable in a method with the same name as an existing member, you will have to use this->var to access the class member instead of the local variable.

#include <iostream>
using namespace std;
class A
{
    public:
        int a;

        void f() {
            a = 4;
            int a = 5;
            cout << a << endl;
            cout << this->a << endl;
        }
};

int main()
{
    A a;
    a.f();
}

prints:

5
4

2
  • 1
    I would better use cout << A::a << endl; instead. ``this" is unimportant in this case.
    – siddhant3s
    Jun 15, 2009 at 0:15
  • 5
    I would rather just avoid the name clash with conventions like "m_a" or "a_".
    – Tom
    Jun 15, 2009 at 5:28
24

There are several reasons why you might need to use this pointer explicitly.

  • When you want to pass a reference to your object to some function.
  • When there is a locally declared object with the same name as the member object.
  • When you're trying to access members of dependent base classes.
  • Some people prefer the notation to visually disambiguate member accesses in their code.
9

Although I usually don't particular like it, I've seen others use this-> simply to get help from intellisense!

1
  • Why don't you like it? I think it reduces cognitive burden thinking about is this local var or a data member.
    – User 10482
    Jul 7, 2023 at 17:10
8

There are few cases where using this must be used, and there are others where using the this pointer is one way to solve a problem.

  1. Alternatives Available: To resolve ambiguity between local variables and class members, as illustrated by @ASk.

  2. No Alternative: To return a pointer or reference to this from a member function. This is frequently done (and should be done) when overloading operator+, operator-, operator=, etc:

     class Foo
     {
       Foo& operator=(const Foo& rhs)
       {
         return * this;
       }
     };
    

    Doing this permits an idiom known as "method chaining", where you perform several operations on an object in one line of code. Such as:

     Student st;
     st.SetAge (21).SetGender (male).SetClass ("C++ 101");
    

    Some consider this concise, others consider it an abomination. Count me in the latter group.

  3. No Alternative: To resolve names in dependant types. This comes up when using templates, as in this example:

     #include <iostream>
    
    
     template <typename Val>
     class ValHolder
     {
     private:
       Val mVal;
     public:
       ValHolder (const Val& val)
       :
         mVal (val)
       {
       }
       Val& GetVal() { return mVal; }
     };
    
     template <typename Val>
     class ValProcessor
     :
       public ValHolder <Val>
     {
     public:
       ValProcessor (const Val& val)
       :
         ValHolder <Val> (val)
       {
       }
    
       Val ComputeValue()
       {
     //    int ret = 2 * GetVal();  // ERROR:  No member 'GetVal'
         int ret = 4 * this->GetVal();  // OK -- this tells compiler to examine dependant type (ValHolder)
         return ret;
       }
     };
    
     int main()
     {
       ValProcessor <int> proc (42);
       const int val = proc.ComputeValue();
       std::cout << val << "\n";
     }
    
  4. Alternatives Available: As a part of coding style, to document which variables are member variables as opposed to local variables. I prefer a different naming scheme where member variables can never have the same name as locals. Currently I'm using mName for members and name for locals.

1
  • For point 3, when you say "no alternate", there actually are a few other ways: 1) int ret = 6 * VahHolder<Val>::GetVal(); or 2) in the class (not function) using ValHolder<Val>::GetVal; also makes unqualified lookup work for GetVal, even in a dependent context. godbolt.org/z/n5PY3j51c Feb 25, 2022 at 13:47
6
  1. Where a member variable would be hidden by a local variable
  2. If you just want to make it explictly clear that you are calling an instance method/variable


Some coding standards use approach (2) as they claim it makes the code easier to read.

Example:
Assume MyClass has a member variable called 'count'

void MyClass::DoSomeStuff(void)
{
   int count = 0;

   .....
   count++;
   this->count = count;
}
5

One other case is when invoking operators. E.g. instead of

bool Type::operator!=(const Type& rhs)
{
    return !operator==(rhs);
}

you can say

bool Type::operator!=(const Type& rhs)
{
    return !(*this == rhs);
}

Which might be more readable. Another example is the copy-and-swap:

Type& Type::operator=(const Type& rhs)
{
    Type temp(rhs);
    temp.swap(*this);
}

I don't know why it's not written swap(temp) but this seems to be common.

1
  • In your last case, note that you can call a non-const member function on a temporary (Type(rhs).swap(*this); is legal and correct) but a temporary cannot bind to a non-const reference parameter (compiler rejects swap(Type(rhs)); as well as this->swap(Type(rhs));)
    – Ben Voigt
    Mar 18, 2019 at 14:51
5

The other uses for this (as I thought when I read the summary and half the question... .), disregarding (bad) naming disambiguation in other answers, are if you want to cast the current object, bind it in a function object or use it with a pointer-to-member.

Casts

void Foo::bar() {
    misc_nonconst_stuff();
    const Foo* const_this = this;
    const_this->bar(); // calls const version

    dynamic_cast<Bar*>(this)->bar(); // calls specific virtual function in case of multi-inheritance
} 

void Foo::bar() const {}

Binding

void Foo::baz() {
     for_each(m_stuff.begin(), m_stuff.end(),  bind(&Foo:framboozle, this, _1));        
     for_each(m_stuff.begin(), m_stuff.end(), [this](StuffUnit& s) { framboozle(s); });         
} 

void Foo::framboozle(StuffUnit& su) {}

std::vector<StuffUnit> m_stuff;

ptr-to-member

void Foo::boz() {
    bez(&Foo::bar);
    bez(&Foo::baz);
} 

void Foo::bez(void (Foo::*func_ptr)()) {
    for (int i=0; i<3; ++i) {
        (this->*func_ptr)();
    }
}

Hope it helps to show other uses of this than just this->member.

4

You only have to use this-> if you have a symbol with the same name in two potential namespaces. Take for example:

class A {
public:
   void setMyVar(int);
   void doStuff();

private:
   int myVar;
}

void A::setMyVar(int myVar)
{
  this->myVar = myVar;  // <- Interesting point in the code
}

void A::doStuff()
{
  int myVar = ::calculateSomething();
  this->myVar = myVar; // <- Interesting point in the code
}

At the interesting points in the code, referring to myVar will refer to the local (parameter or variable) myVar. In order to access the class member also called myVar, you need to explicitly use "this->".

1
  • This is the one use of this-> that's trivial to avoid (just give the local variable a different name). All the really interesting uses of this are not even mentioned by this answer. Dec 2, 2014 at 21:17
3

You need to use this to disambiguate between a parameters/local variables and member variables.

class Foo
{
protected:
  int myX;

public:
  Foo(int myX)
  {
    this->myX = myX; 
  }
};
1
  • 2
    No, you don't need it, you can use it. You can also use a different name for the function argument, which has the advantage of not having two entities with the same name. Dec 2, 2014 at 21:14
3

The main (or I can say, the only) purpose of this pointer is that it points to the object used to invoke a member function.

Base on this purpose, we can have some cases that only using this pointer can solve the problem.

For example, we have to return the invoking object in a member function with argument is an same class object:

class human {

... 

human & human::compare(human & h){
    if (condition)
        return h;       // argument object
    else 
        return *this;   // invoking object
    }
};
2

I found another interesting case of explicit usage of the "this" pointer in the Effective C++ book.

For example, say you have a const function like

  unsigned String::length() const

You don't want to calculate String's length for each call, hence you want to cache it doing something like

  unsigned String::length() const
  {
    if(!lengthInitialized)
    {
      length = strlen(data);
      lengthInitialized = 1;
    }
  }

But this won't compile - you are changing the object in a const function.

The trick to solve this requires casting this to a non-const this:

  String* const nonConstThis = (String* const) this;

Then, you'll be able to do in above

  nonConstThis->lengthInitialized = 1;
2
  • 3
    Or you could make length mutable, or even put it in a nested struct. Casting away constness is almost never a good idea. Feb 4, 2013 at 18:21
  • 4
    Please don't. If the member is to be changed from const member functions, the it should be mutable. Otherwise you are making life more complicated for you an other maintainers. Feb 4, 2013 at 18:24

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