I'd like to remove certain items from a container. The problem is, I don't know what kind of container it is. Most STL-algorithms famously don't care about container: e.g., find_if, copy_if, etc. all work more or less with any container type.

But what about deleting? For vector-like containers, there is the remove-erase-idiom, which, however, cannot be applied to, e.g., set-like containers. Using template specialization or overloading, I could specialize for particular containers but that does not scale when other containers (unordered_set, list, ...) should be considered, too.

My question is: How to implement a function which removes certain items from any container efficiently? Preferred signature:

template<typename Ts, typename Predicate>
void remove_if(Ts& ts, const Predicate& p);

Or, more concrete: How can I distinguish between set-like containers (fast insert/delete, no custom order) and vector-like containers (slow insert/delete, custom order)? Is there a (commonly used) container which does not fit in either category?

Edit: I just found std::experimental::erase_if, which has overloads for many (all?) containers. That is, I will accept a solution only if it doesn't use std::experimental.

  • @VTT Yeah, that's what I though first. But does std::random_access_iterator_tag guarantee that the remove-erase idiom works?
    – pasbi
    Dec 15, 2018 at 11:40
  • 1
    there is a reason why the algorithms family in c++ don't include algorithms which change the size of the underlying container...
    – MSS
    Dec 15, 2018 at 11:47
  • @pasbi - you actually only need to consider all possible iterators (traits).
    – uv_
    Dec 15, 2018 at 11:47
  • if you still need to do this, then you could do this based on the traits of iterator
    – MSS
    Dec 15, 2018 at 11:47
  • @AshishDaggubatti I don't want to propose a new algorithm for the standard, I want to implement it for myself. Is there any reason why I shouldn't develop such a routine?
    – pasbi
    Dec 15, 2018 at 13:46

2 Answers 2



As noted by @pasbi, it seems that we already have std::experimental::erase_if, which does exactly that! It will be merged into std:: in C++20.

If you want a custom implementation, read ahead.

You don't have to specialize for specific containers. Instead, you can use type traits and SFINAE to determine container 'category'.

Is there a (commonly used) container which does not fit in either category?

I'd say yes. There are std::list and std::forward_list which have .remove_if() member function, which should be faster than erase-remove.

Thus, we have three possible implementations:

We use .remove_if() if it's available (as determined by std::experimental::is_detected).
This way we handle std::list and std::forward_list.

Otherwise, we use erase-remove if possible. (Which is possible if container elements are move-assignable, which can be tested with std::is_move_assignable.)
This way we handle all remaining standard containers except for std::[unordered_]map and std::[unordered_]set. (This is what you call vector-like containers.)

Otherwise we resort to a simple erasing loop over the elements.
This way we handle std::[unordered_]map and std::[unordered_]set.

Example implementation:

#include <algorithm>
#include <iterator>
#include <experimental/type_traits>
#include <utility>

inline auto dummy_predicate = [](auto &&){return false;};

template <typename T> using detect_member_remove_if =

template <typename T, typename F> void remove_if(T &container, F &&func)
    using element_t = std::remove_reference_t<decltype(*std::begin(container))>;

    if constexpr (std::experimental::is_detected_v<detect_member_remove_if, T>)
    else if constexpr (std::is_move_assignable_v<element_t>)
        auto new_end = std::remove_if(std::begin(container), std::end(container),
        container.erase(new_end, std::end(container));
        auto it = std::begin(container);
        while (it != std::end(container))
            if (func(*it))
                it = container.erase(it);

I'd prefer something without experimental

Here's a custom replacement for std::experimental::is_detected_v:

namespace impl
    template <typename ...P> struct void_impl {using type = void;};
    template <typename ...P> using void_t = typename void_impl<P...>::type;

    template <typename Dummy, template <typename...> typename A, typename ...B>
    struct is_detected : std::false_type {};

    template <template <typename...> typename A, typename ...B>
    struct is_detected<void_t<A<B...>>, A, B...> : std::true_type {};

template <template <typename...> typename A, typename ...B>
inline constexpr bool is_detected_v = impl::is_detected<void, A, B...>::value;

Note that we don't use C++17 std::void_t because, as far as I know, it still doesn't SFINAE correctly in Clang.

  • Nice! I didn't consider the experimental stuff. Unfortunately, while browsing the documentation about experimental, I found std::experimental::erase_if, which does pretty much what I require out of the box. I'd prefer something without experimental, however.
    – pasbi
    Dec 15, 2018 at 13:52
  • 1
    @pasbi - if you want you can implement is_dtected_v yourself....the implementation is here : en.cppreference.com/w/cpp/experimental/is_detected
    – MSS
    Dec 15, 2018 at 14:01
  • I'm not completely content. It's a lot of boilerplate code. But, of course, it meets the requirements. I'll accept it because you told me that list-, vector- and set-like is equivalent to 'has remove_if', 'iterator is_move_assignable' and 'otherwise'
    – pasbi
    Dec 15, 2018 at 14:55
  • 2
    @pasbi It's not "boilerplate". It's three functions in one, so that you catch all the cases and never need to write it again.
    – Passer By
    Dec 15, 2018 at 15:11

std::erase and std::erase_if will be part of C++20. See P1209

Libc++ (trunk) implements this already (as of yesterday :-)), and it will be part of clang 8.0.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.