std::variant
<variant>
class variant;
The class template std::variant represents a type-safe union.
An instance of variant at any given time either holds a value of one of its alternative types, or in the case of error - no value (this state is hard to achieve, see valueless_by_exception).
As with unions, if a variant holds a value of some object type T, the T object is nested within the variant object.
A variant is not permitted to hold references, arrays, or the type void.
A variant is permitted to hold the same type more than once, and to hold differently cv-qualified versions of the same type.
Consistent with the behavior of unions during aggregate initialization, a default-constructed variant holds a value of its first alternative, unless that alternative is not default-constructible (in which case the variant is not default-constructible either). The helper class std::monostate can be used to make such variants default-constructible.
A program that instantiates the definition of std::variant with no template arguments is ill-formed. std::variant<std::monostate > can be used instead.
If a program declares an explicit or partial specialization of std::variant, the program is ill-formed, no diagnostic required.
Contents
Template parameters
Member functions
Observers
Modifiers
Visitation
variant (public member function) [edit]
Non-member functions
variants (function template) [edit]
(function template) [edit]
variant given the index or the type (if unique), returns null on error (function template) [edit]
variant objects as their contained values (function template) [edit]
Helper classes
variant of non-default-constructible types (class) [edit]
variant's list of alternatives at compile time(class template) (variable template)[edit]
(class template) (alias template)[edit]
Helper objects
Notes
| Feature-test macro | Value | Std | Feature |
|---|---|---|---|
__cpp_lib_variant |
201606L |
(C++17) | std::variant: a type-safe union
|
202102L |
(C++23) (DR17) |
std::visit for classes derived from std::variant
| |
202106L |
(C++23) (DR20) |
Fully constexpr std::variant
| |
202306L |
(C++26) | Member visit
|
Example
#include <cassert> #include <iostream> #include <string> #include <variant> int main() { std::variant<int, float> v, w; v = 42; // v contains int int i = std::get<int>(v); assert (42 == i); // succeeds w = std::get<int>(v); w = std::get<0>(v); // same effect as the previous line w = v; // same effect as the previous line // std::get<double>(v); // error: no double in [int, float] // std::get<3>(v); // error: valid index values are 0 and 1 try { std::get<float>(w); // w contains int, not float: will throw } catch (const std::bad_variant_access & ex) { std::cout << ex.what() << '\n'; } using namespace std::literals; std::variant<std::string > x("abc"); // converting constructors work when unambiguous x = "def"; // converting assignment also works when unambiguous std::variant<std::string, void const*> y("abc"); // casts to void const* when passed a char const* assert (std::holds_alternative <void const*>(y)); // succeeds y = "xyz"s; assert (std::holds_alternative <std::string >(y)); // succeeds }
Possible output:
std::get: wrong index for variant
Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|---|---|---|
| LWG 2901 | C++17 | specialization of std::uses_allocator provided, but variant cannot properly support allocators
|
specialization removed |
| LWG 3990 | C++17 | a program could declare an explicit or partial specialization of std::variant
|
the program is ill-formed in this case (no diagnostic required) |
| LWG 4141 | C++17 | the requirement for storage allocation was confusing |
the contained object must be nested within the variant object
|