It's possible to iterate over a tuple's elements and apply a function with this sort of implementation:

```
#include <tuple>
#include <utility>
template<class... Args>
void swallow(Args&&...)
{
}
template<size_t... Indices, class Function, class Tuple>
void tuple_for_each_in_unspecified_order_impl(std::index_sequence<Indices...>, Function f, const Tuple& t)
{
swallow(f(std::get<Indices>(t))...);
}
template<class Function, class... Types>
void tuple_for_each_in_unspecified_order(Function f, const std::tuple<Types...>& t)
{
tuple_for_each_in_unspecified_order_impl(std::index_sequence_for<Types...>(), f, t);
}
```

Because this implementation relies on the order of parameters passed to the `swallow()`

function, the order of `f`

's invocations are unspecified.

One way to force the invocations of `f`

to agree with the order of tuple elements would be to use recursion:

```
template<class Function, class Tuple>
void tuple_for_each_in_order_impl(std::index_sequence<>, Function f, const Tuple& t) {}
template<size_t I, size_t... Indices, class Function, class Tuple>
void tuple_for_each_in_order_impl(std::index_sequence<I,Indices...>, Function f, const Tuple& t)
{
f(std::get<I>(t));
tuple_for_each_in_order_impl(std::index_sequence<Indices...>(), f, t);
}
template<class Function, class... Types>
void tuple_for_each_in_order(Function f, const std::tuple<Types...>& t)
{
tuple_for_each_in_order_impl(std::index_sequence_for<Types...>, f, t);
}
```

The problem with this recursive solution is that it may introduce disappointing compile-time performance.

Is there a more efficient solution that would produce the desired evaluation order?

I know that many fine c++ libraries for metaprogramming and tuple manipulation are available, but I am interested in the implementation details of a solution, should one exist.