69

Prelude:

std::tuple<int, int, int> f();
std::tuple<int, int, float, int> g();

C++1z will introduce syntax for structured bindings which will make it possible to write instead of

int a, b, c;
std::tie(a, b, c) = f();

something like

auto [a, b, c] = f();

However, std::tie also allowed to specify std::ignore to ignore certain components, e.g:

std::tie(a, b, std::ignore, c) = g();

Will it be possible to do something similar using the new structured bindings syntax? How would it work?

  • 2
    Just put an arbitrary name there. – n. 'pronouns' m. Nov 18 '16 at 9:41
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    @n.m. won't an arbitrary name create a copy ? – Piotr Skotnicki Nov 18 '16 at 11:33
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    @Piotr Not more copies than with std::ignore, I think. Since we have guaranteed copy elision, the dummy variable is initialized; with std::tie, the temporary that is at the rhs of the assignment to std::ignore is initialized. – j6t Nov 18 '16 at 11:54
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    It would be possible to have a macro auto[IGNORE] that generates a unique name (ex: with compiler-specific COUNTER or LINE). It would be readable enough, and in practice would function like std::ignore for std::tie. – KABoissonneault Nov 18 '16 at 14:56
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    @PiotrSkotnicki No, the only copy a decomp declaration makes is the thing that's being decomposed. The things being declared are either aliases to the members/elements of that thing or references that binds to what get returns. – T.C. Nov 18 '16 at 20:23
50

The structured bindings proposal contains a dedicated section answering your question (P0144R2):

3.8 Should there be a way to explicitly ignore components?

The motivation would be to silence compiler warnings about unused names. We think the answer should be “not yet.” This is not motivated by use cases (silencing compiler warnings is a motivation, but it is not a use case per se), and is best left until we can revisit this in the context of a more general pattern matching proposal where this should fall out as a special case.

Symmetry with std::tie would suggest using something like a std::ignore:

tuple<T1,T2,T3> f();

auto [x, std::ignore, z] = f(); // NOT proposed: ignore second element

However, this feels awkward.

Anticipating pattern matching in the language could suggest a wildcard like _ or *, but since we do not yet have pattern matching it is premature to pick a syntax that we know will be compatible. This is a pure extension that can wait to be considered with pattern matching.

However, note that the working draft of the Standard is currently being revised by the relevant National Bodies (NB), and there is a NB comment requesting this feature (P0488R0, US100):

Decomposition declarations should provide syntax to discard some of the returned values, just as std::tie uses std::ignore.

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    It’s too late now, but I would point out that a feature which feels awkward to use and will probably be replaced in the future is better than not having the ability to use the feature at all, and this doesn’t seem like the kind of thing that will make the standards committee wish for a time machine because there is no other reasonable interpretation of std::ignore in structured bindings. – Daniel H Aug 7 '17 at 15:45
7

Will it be possible to do something similar using the new structured bindings syntax?

No. You'll just have to make up a variable name that won't be mentioned later.

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    which will generate unused variable warning -Wunused-variable , you can use: [[maybe_unused]] auto [ a, b, dummy ] = std::tuple(1,"2",3f); but that means any of them might be unused, you won't know which one. there is no good solution for that case right now. hopefully it'll be improved in c++20. taken from here: stackoverflow.com/questions/41404001/… – serine Jul 1 '17 at 23:07
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    "there is no good solution for that case right now": that's not completely true: You can simply use (void)dummy; to get rid of the unused variable warning without affecting the other variables. – andreee May 28 '19 at 10:37
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    @andreee: Using up a statement just to quiet a warning is not what I would call a "good solution". – Nicol Bolas May 28 '19 at 13:23

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