I have some var = std::variant<std::monostate, a, b, c> when a, b, c is some types.

How, at runtime, do I check what type var contains?

In the official documentation I found information that if var contains a type and I write std::get<b>(var) I get an exception. So I thought about this solution:

try {
  // Do something
} catch(const std::bad_variant_access&) {
  try {
    // Do something else
  } catch(const std::bad_variant_access&) {
    try {
     // Another else
    } catch (const std::bad_variant_access&) {
      // std::monostate

But it's so complicated and ugly! Is there a simpler way to check what type std::variant contains?

  • Why do you need a std::variant<std::monostate, a, b, c> in first place if you then need to do different things depending on the actual type? It smells like XY Problem to me. – bracco23 Aug 19 '20 at 7:35
  • 2
    You can use standard std::visit – nop666 Aug 19 '20 at 7:35
  • 1
    @nop666 you should turn that into answer, I did not know about std::visit – Serve Laurijssen Aug 19 '20 at 7:37
  • @bracco23, I need to use exactly this variant. No one another. – dasfex Aug 19 '20 at 7:41
  • std::visit is horrible. Given there is an index somewhere, you would have thought they could implement switch. Nice, clean and simple. – user997112 Feb 6 at 3:56

The most simple way is to switch based on the current std::variant::index(). This approach requires your types (std::monostate, A, B, C) to always stay in the same order.

// I omitted C to keep the example simpler, the principle is the same
using my_variant = std::variant<std::monostate, A, B>;

void foo(my_variant &v) {
    switch (v.index()) {

    case 0: break; // do nothing because the type is std::monostate

    case 1: {

    case 2: {


If your callable works with any type, you can also use std::visit:

void bar(my_variant &v) {
    std::visit([](auto &&arg) -> void {
        // Here, arg is std::monostate, A or B
        // This lambda needs to compile with all three options.
        // The lambda returns void because we don't modify the variant, so
        // we could also use const& arg.
    }, v);

If you don't want std::visit to accept std::monostate, then just check if the index is 0. Once again, this relies on std::monostate being the first type of the variant, so it is good practice to always make it the first.

You can also detect the type using if-constexpr inside the callable. With this approach, the arguments don't have to be in the same order anymore:

void bar(my_variant &v) {
    std::visit([](auto &&arg) -> my_variant { 
        using T = std::decay_t<decltype(arg)>;
        if constexpr (std::is_same_v<std::monostate, T>) {
            return arg; // arg is std::monostate here
        else if constexpr (std::is_same_v<A, T>) {
            return arg + arg; // arg is A here
        else if constexpr (std::is_same_v<B, T>) {
            return arg * arg; // arg is B here
    }, v);

Note that the first lambda returns void because it just processes the current value of the variant. If you want to modify the variant, your lambda needs to return my_variant again.

You could use an overloaded visitor inside std::visit to handle A or B separately. See std::visit for more examples.


std::visit is the way to go:

There is even overloaded to allow inlined visitor:

// helper type for the visitor #4
template<class... Ts> struct overloaded : Ts... { using Ts::operator()...; };
// explicit deduction guide (not needed as of C++20)
template<class... Ts> overloaded(Ts...) -> overloaded<Ts...>;

and so:

}, var);

To use chained if-branches instead, you might used std::get_if

if (auto* v = std::get_if<a>(var)) {
  // ...
} else if (auto* v = std::get_if<b>(var)) {
  // ...
} else if (auto* v = std::get_if<c>(var)) {
  // ...
} else { // std::monostate
  // ...
  • You could do if (auto *v = std::get_if<a>(var); v != nullptr) in C++17 to keep it short. – Jan Schultke Aug 19 '20 at 10:12
  • @J.Schultke: longer than previous/old way. For readability, I would say it is subjective, both seems unnatural for me. Fortunately, std::visit way doesn't have those drawback :) – Jarod42 Aug 19 '20 at 12:30
  • Is overloaded a standard type or is it something you wrote yourself? – user253751 Aug 19 '20 at 17:01
  • @user253751: I take it from std::visit's example. I think there was a proposal to add it in std. but one or 2 lines to have it anyway :) – Jarod42 Aug 19 '20 at 17:28

You can use standard std::visit

Usage example:

#include <variant>
#include <iostream>
#include <type_traits>

struct a {};
struct b {};
struct c {};

int main()
   std::variant<a, b, c> var = a{};

   std::visit([](auto&& arg) {
            using T = std::decay_t<decltype(arg)>;
            if constexpr (std::is_same_v<T, a>)
                std::cout << "is an a" << '\n';
            else if constexpr (std::is_same_v<T, b>)
                std::cout << "is a b" << '\n';
            else if constexpr (std::is_same_v<T, c>)
                std::cout << "is a c" << '\n';
               std::cout << "is not in variant type list" << '\n';
        }, var);

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