I'm trying to use a c++20 constrained algorithm for the erase-remove idiom:

std::vector<int> v;
v.erase(std::unique(std::begin(v), std::end(v)), std::end(v));

but when I do a simple transformation:

v.erase(std::ranges::unique(v), std::end(v));

I get an error that the arguments to erase don't match:

error: no matching function for call to 'std::vector<int>::erase(std::ranges::borrowed_subrange_t<std::vector<int>&>, std::vector<int>::iterator)'

A similar error is produced if the second argument is std::ranges::end(v).

How can I get this to work?

The question originally used remove instead of unique, but there is an overloaded std::erase for all containers that makes that particular use case less motivating.

  • I can't see std::ranges::remove documented anywhere on cppreference, is it part of the standard? Looks like boost ranges has remove but not c++? – Alan Birtles Oct 10 '20 at 19:35
  • @AlanBirtles Yes, it's here. It's listed here, on cppreference as well, but there isn't a specific page for it yet. – cigien Oct 10 '20 at 19:44
  • @AlanBirtles I switched to ranges::unique anyway, which is also in c++20. – cigien Oct 10 '20 at 20:10

Another option would be decomposing the subrange returned by std::ranges::remove/unique, and use those iterators:

auto [Beg, End] = std::ranges::remove(v, 42);
v.erase(Beg, End);
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    @康桓瑋 No, it's fine. You just need to include <ranges>. – cigien Oct 20 '20 at 3:16
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    @康桓瑋 I don't think so. std::ranges::subrange is declared in the <ranges> header. I assume that the GCC team decided not to include all of <ranges> in <algorithm>. Maybe they defined the PairLike protocol for subrange in a header that is not accessible by <algorithm>, but I don't see why that wouldn't be standard-compliant. – metalfox Oct 20 '20 at 18:05
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    @康桓瑋 Part of the subrange structured bindings stuff is defined in the <ranges> header itself, while <algorithm> includes <bits/ranges_algo.h>, which includes <bits/ranges_util.h> where subrange is defined. – metalfox Oct 21 '20 at 6:04
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    @metalfox Already filed a report for this. Thank you for your advice. – 康桓瑋 Oct 21 '20 at 13:41
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    @康桓瑋 Wow, you got it fixed quickly! Thanks for the report. – metalfox Oct 21 '20 at 14:44

std::ranges::unique (and std::ranges::remove) returns a sub range from the first removed element to the end of the container so you need to use std::begin before passing to std::vector::erase:

v.erase(std::ranges::begin(std::ranges::remove(v, 42)), std::end(v));
v.erase(std::ranges::begin(std::ranges::unique(v)), std::end(v));

It doesn't work since std::ranges::remove() returns not iterator but range. But even if you try v.erase(std::ranges::remove(...)) it will not work, because vector does not have erase() overload which takes range as parameter.

Instead, take a look at std::erase() (defined in <vector>). What you need is probably just std::erase(v, 42).

  • This is nice, but it doesn't really answer the question. This only works if I remove elements using an equivalent of remove. It doesn't work if I want to remove elements with an equivalent of unique. I've updated the question. – cigien Oct 10 '20 at 20:06

In C++20, std::ranges::unique/remove returns a std::ranges::subrange which contains the sub-range that we want to erase usually (begin() point to the first removed element, and end() point to the containers's end()), so I think the proper erase-remove idiom in C++20 is:

std::vector<int> v;
v.resize(v.size() - std::ranges::unique(v).size());
v.resize(v.size() - std::ranges::remove(v, 42).size());
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    I think the idiom should be the one that's simplest to understand, and to write. I don't think this is an improvement over the c++17 version. – cigien Oct 20 '20 at 3:19

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