24

Assume I have an object of type

std::map<std::string, std::tuple<int, float>> data;

Is it possible to access the element types in a nested way (i.e. when used in ranged for loop) like this

for (auto [str, [my_int, my_float]] : data) /* do something */
  • Have you tried it? – bipll Feb 28 '18 at 17:54
  • Yes I tried it. It doesn't work with the syntax above. Thats why I'm asking if it is even possible. – Timo Feb 28 '18 at 17:55
  • A problem is: how to tell C++ what const/reference-ness to use for each hidden object to which each nested set of introduced names are bound? The const/reference qualifier refers to said hidden object, not the introduced aliases to its members/get(). I can't see how it'd matter in this case if both were the same, nor immediately think of cases where distinct qualifiers would be needed, but I wouldn't want C++ to add in nested structured bindings if they were 2nd-class compared to what we currently have. And making them 1st-class seems perilous, when the grammar is probably already straining! – underscore_d Sep 16 '18 at 17:54
19

No, it is not possible.

I distinctly remember reading somewhere that nested structured bindings are not allowed for C++17, but they are considering allowing it in a future standard. Can't find the source though.

  • I'm curious how the syntax will not clash with attributes if nested decompositions become a thing. – miradulo Feb 28 '18 at 18:03
  • Sad. That would have been one step closer to Python++. @miradulo I was asking the same question to myself. Are attributes even allowed after a type qualifier like auto [[attribute]] [var1, var2]? – Timo Feb 28 '18 at 18:05
  • 1
    @Timo Yup, take a look at the cppref example. Attributes can be almost anywhere. – miradulo Feb 28 '18 at 18:13
8

No, they aren't possible; but this is:

for (auto&& [key, value] : data) {
  auto&& [my_int, my_float] = value;
}

which is close at least.

  • Yes that's how I'm doing it now. Thanks. – Timo Mar 1 '18 at 12:26

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