Is it possible to access (read only) the variables captured by a lambda?

This doesn't work:

std::function<double  (const double)> plus (const double a) {
    return [a] (const double b) -> double {
        return a+b;

auto plus5 = plus(5);
cout << plus5.a << endl;
  • 4
    Neither from lambda nor std::function...
    – Jarod42
    Aug 29, 2016 at 12:26
  • 7
    Definitely not after storing it in a std function. Without that, I could do it with a horrible (yet legal) hack in C++17. But I would be a horrible person to tell you how, because you might use it. Aug 29, 2016 at 12:26
  • 2
    I assume your case is too complicated to be solved by a simple cout << plus5(0)? Aug 29, 2016 at 12:34
  • 4
    @Yakk great, now I want to know.
    – Quentin
    Aug 29, 2016 at 12:45
  • 1
    @Quentin Without if constexpr you end up having to have helper functions I think. Maybe with some compile_time_if generic helper functions. Aug 29, 2016 at 13:19

3 Answers 3

auto plus( double a ) {
  using R = struct {
    double a;
    double operator()(double b)const{return b+a;}
  return R{std::move(a)};

live example.

Please note that a std::function is not a lambda, and lambda is not a std::function. They work with each other, but using one term to refer to the other is the opposite of helpful.

  • Why a using definition instead of simply naming the struct? Aug 29, 2016 at 13:24
  • 1
    @StoryTeller I am trying to mimic a lambda as close as possible, basically. My original attempt was to directly return the anonymous struct, but declaring a struct in a return statement is not allowed. ;) Aug 29, 2016 at 13:35
  • Thanks Yakk, this is great! Is it possible to make the struct inherit from some C++ function interface so it can be specialised/converted an std::function when I don't need access to a anymore?
    – user357269
    Aug 29, 2016 at 13:35
  • 3
    @user357269 No need. std::function just works. Magic. Poof. Wave your hands and watch it happen. Read type erasure if you want to know what is going on under the hood. Aug 29, 2016 at 13:37
  • 1
    @user357269 Or by inserting a std::move there, as I just did. :) Instrument with a struct noisy that prints when copied (but not when moved). If you move it into plus and store the return value, a total of zero copies will be made. live example of noisy Sep 1, 2016 at 14:42

This is not how a lambda should be used.

The interface of a lambda is its function signature. Its captures should be considered an implementation detail and not be visible to the user.

If you want explicit access to the captures, write your own function object and expose the respective data members accordingly:

struct MyPlus {
    double a;
    MyPlus(double x) : a(x) {}
    double operator()(const double b)
        return a+b;

auto plus5 = MyPlus(5);
std::cout << plus5.a;
  • 1
    This is exactly the sort of boilerplate that I use to lambdas to avoid
    – user357269
    Aug 29, 2016 at 12:43
  • 5
    @user357269 Yes. But this is a very specific situation which lambdas are simply not fit to handle. So I am afraid that falling back to the more verbose, but more powerful generic approach is your best option. Aug 29, 2016 at 12:44

"Definitely not after storing it in a std function. Without that, I could do it with a horrible (yet legal) hack in C++17. But I would be a horrible person to tell you how, because you might use it." – Yakk

Well let's relieve Yakk's karma; here's a proof of concept of a C++14 solution which you definitely don't want to let loose in the wild:

auto magic = [a, b](auto &&... args) mutable -> decltype(auto) {
    return makeOverload(

        // Capture access boilerplate
        [&](cap_<0>) -> auto& { return a; },
        [&](cap_<1>) -> auto& { return b; },

        // Actual function
        [&](int p) {
            return "[" + std::to_string(a) + ", " + b + "](" + std::to_string(p) + ")";


makeOverload takes any number of functors and blends them into a single one. I borrowed the idea from this blog post, with help from the comment section to make it actually work.

The resulting functor is used to tag-dispatch between the cap<N> tags and the actual parameters of the function. Thus, calling magic(cap<0>) causes it to spit out the corresponding captured variable, that is a. The actual behaviour of the function is, of course, still accessible with a normal call to magic(123).

As a bonus, the outer lambda is mutable, and the capture accessors return by reference: you actually have read-write access to the captured variables!

You can observe and interact with this creature in its natural habitat on Coliru right here.

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