I understand the correct way to capture this (to modify object properties) in a lambda is as follows:

auto f = [this] () { /* ... */ };

But I'm curious as to the following peculiarity I've seen:

class C {
        void foo() {
            // auto f = [] () { // this not captured
            auto f = [&] () { // why does this work?
            // auto f = [&this] () { // Expected ',' before 'this'
            // auto f = [this] () { // works as expected
                x = 5;

        int x;

The oddity that I am confused by (and would like answered) is why the following works:

auto f = [&] () { /* ... */ }; // capture everything by reference

And why I cannot explicitly capture this by reference:

auto f = [&this] () { /* ... */ }; // a compiler error as seen above.
  • 7
    Why would you want to? In terms of things for which a reference to a pointer might ever conceivably be useful: this can't be changed, it isn't large enough to make a reference faster... and anyway, it doesn't actually exist, so it has no real lifetime, meaning any reference to it would be dangling by definition. this is a prvalue, not an lvalue. Aug 16, 2016 at 15:38

2 Answers 2


The reason [&this] doesn't work is because it is a syntax error. Each comma-seperated parameter in the lambda-introducer is a capture:

    & identifier

You can see that &this isn't allowed syntactically. The reason it isn't allowed is because you would never want to capture this by reference, as it is a small const pointer. You would only ever want to pass it by value - so the language just doesn't support capturing this by reference.

To capture this explicitly you can use [this] as the lambda-introducer.

The first capture can be a capture-default which is:


This means capture automatically whatever I use, by reference (&) or by value (=) respectively - however the treatment of this is special - in both cases it is captured by value for the reasons given previously (even with a default capture of &, which usually means capture by reference).

For purposes of name lookup (3.4), determining the type and value of this (9.3.2) and transforming id- expressions referring to non-static class members into class member access expressions using (*this) (9.3.1), the compound-statement [OF THE LAMBDA] is considered in the context of the lambda-expression.

So the lambda acts as if it is part of the enclosing member function when using member names (like in your example the use of the name x), so it will generate "implicit usages" of this just like a member function does.

If a lambda-capture includes a capture-default that is &, the identifiers in the lambda-capture shall not be preceded by &. If a lambda-capture includes a capture-default that is =, the lambda-capture shall not contain this and each identifier it contains shall be preceded by &. An identifier or this shall not appear more than once in a lambda-capture.

So you can use [this], [&], [=] or [&,this] as a lambda-introducer to capture the this pointer by value.

However [&this] and [=, this] are ill-formed. In the last case gcc forgivingly warns for [=,this] that explicit by-copy capture of ‘this’ redundant with by-copy capture default rather than errors.

  • 3
    @KonradRudolph: What if you want to capture some things by value and others by reference? Or want to be very explicit with what you capture?
    – Xeo
    May 1, 2013 at 18:12
  • 2
    @KonradRudolph: It's a safety feature. You might accidentally capture names that you don't intend to. May 1, 2013 at 18:12
  • 9
    @KonradRudolph: Block-level constructs don't magically copy a pointer to the objects they use into a new invisible anonymous type that can then survive the enclosing scope - simply by using the objects name in an expression. Lambda capturing is a lot more of a dangerous business. May 1, 2013 at 18:37
  • 6
    @KonradRudolph I'd say "use [&] if you are doing something like creating a block to be passed into a control structure", but explicitly capture if you are producing a lambda that is going to be used for less simple purposes. [&] is a horrible idea if the lambda is going to outlive the current scope. However, many uses of lambdas are just ways to pass blocks to control structures, and the block won't outlive the block it was created in scope. May 1, 2013 at 20:25
  • 2
    @Ruslan: No, this is a keyword, this is not an identifier. Oct 11, 2016 at 16:33

Because standard doesn't have &this in Captures lists:

N4713 Captures:

    capture-default, capture-list

    capture-list, capture...opt
    * this
    identifier initializer
    &identifier initializer
  1. For the purposes of lambda capture, an expression potentially references local entities as follows:

    7.3 A this expression potentially references *this.

So, standard guarantees this and *this is valid, and &this is invalid. Also, capturing this means capturing *this(which is a lvalue, the object itself) by reference, rather than capturing this pointer by value!

  • *this captures the object by value
    – sp2danny
    Jan 22, 2020 at 10:54

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