I have the following third-party API:

using StatisticsFunc = double (*)(const std::vector<double> &)
libraryClass::ComputeStatistics(StatisticsFunc sf);

Which I'm using like this:

obj1->ComputeStatistics([](const auto& v) {return histogram("obj1", v);};
obj2->ComputeStatistics([](const auto& v) {return histogram("obj2", v);};

But all those lambdas are just repeated code. I'd rather have it like this:


So I need to define:

constexpr auto getHistogramLambda(const char* name) {
    return [](const auto& v) {return histogram(name, v);};

But it won't work, because name is not captured. Neither will this work:

constexpr auto getHistogramLambda(const char* name) {
    return [name](const auto& v) {return histogram(name, v);};

Because capturing lambda is not stateless anymore and cannot be cast to function pointer.

Ofc one can do it as a macro, but I want a modern C++ 17 solution.

Passing string as template argument seems an option as well: https://stackoverflow.com/a/28209546/7432927 , but I'm curious if there's a constexpr way of doing it.

  • If you're not capturing the string by value, then what is meant to stop a user from passing a string that isn't a literal, one whose lifetime may end before the callback gets called? – Nicol Bolas Jan 23 at 14:54
  • Could you possibly change StatisticsFunc to std::function<double(const std::vector<double>&)>? – aschepler Jan 23 at 14:58
  • Template seems like the way to go, I doubt that it is doable with some constexpr cleverness. – paler123 Jan 23 at 15:12
  • @aschepler this is a part of the third party API, I cannot change it. – Przemysław Czechowski Jan 23 at 15:31
  • @NicolBolas well, the string is passed to constexpr function, so I'd like to enforce it being known at compile time. – Przemysław Czechowski Jan 23 at 15:34

Sort of.



Won't work for the reasons you point out - you need to capture state. And then, we can't write this:


Because while we can have template parameters of type const char* we can't have them bind to string literals. You could do it this way:

template <const char* name>
constexpr auto getHistogramLambda() {
    return [](const auto& v) {return histogram(name, v);};

const char p[] = "obj1";

Which is pretty awkward because you need to introduce the extra variable for each invocation. In C++20, we'll be able to write a class type that has as its template paramater a fixed string, which will allow getHistogramLambda<"obj1"> to work, just in a slightly different way.

Until then, the best way currently is probably to use a UDL to capture the individual characters as template parameters of some class type:

template <char... Cs>
constexpr auto getHistogramLambda(X<Cs...>) {
    static constexpr char name[] = {Cs..., '\0'};
    return [](const auto& v) { return histogram(name, v);};


The intent here is that "obj"_udl is an object of type X<'o', 'b', 'j', '1'> - and then we reconstruct the string within the body of the function template in a way that still does not require capture.

Is this worth it to avoid the duplication? Maybe.


Different answer, courtesy of Michael Park. We can encode the value we want in a type - not passing the string literal we want as a function argument or a template argument, but as an actual type - and that way we don't need to capture it:

#define CONSTANT(...) \
  union { static constexpr auto value() { return __VA_ARGS__; } }
#define CONSTANT_VALUE(...) \
  [] { using R = CONSTANT(__VA_ARGS__); return R{}; }()

template <typename X>
constexpr auto getHistogramLambda(X) {
    return [](const auto& v) { return histogram(X::value(), v);};


Not sure this is better than the UDL approach in this particular case, but it's an interesting technique for sure.

  • well, if we allow using macros, we can as well do: #define HISTOGRAM_LAMBDA(X) [] (const auto& v) { return histogram(X, v);}; the idea of the question is to acheive it without macros, in some "modern" constexpr way. But thanks for your contribution. – Przemysław Czechowski Jan 24 at 15:40
  • @PrzemysławCzechowski Those... aren't equivalent. This is a general solution for encasing a value in a type, that is a very specific solution to this problem that just saves you a little bit of typing. – Barry Jan 24 at 15:52
  • ah, I see your point – Przemysław Czechowski Jan 24 at 17:55

Not sure to understand what do you exactly need but... what about declaring a global constexpr array of char const pointers

constexpr std::array<char const *, 3u> arrStr {{"obj0", "obj1", "obj2"}};

then receiving in getHistogramLambda() the index of the required string as template parameter?

template <std::size_t N>
constexpr auto getHistogramLambda () {
    return [](const auto& v) {return histogram(arrStr.at(N), v);};

This way you can call ComputeStatistic() as follows


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