In reading this summary of the c++17 final features I was a bit surprised by the section on structured bindings (emphasis mine):

structured bindings

Until now, there was a known trick to abuse std::tie to assign a tuple or pair to different variables directly, instead of having to deal with the result type manually. This was a hack, and also the variables had to exist, now you can declare the variables and initialize them in one line:

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

The braces are needed, getvalues returns a tuple. std::pair is not mentioned in the proposal, so its unclear if this works with pair, which is returned by the STL in some insert methods.

I am assuming they refer to this kind of usage of std::tie

int a,b,c;
std::tie(a,b,c) = std::make_tuple(1,2,3);

which I believed to be a recommended practice.

Can someone offer an explanation as to why they are referring to above example as a hack?


I can put it simply like that:

In a language where functions can return just one variable

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

is a hack for:

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

just as in the hypothetical world where C++ would allow just one parameter for functions

int p1, p2, p3;
p1 = ...;
p2 = ...;
p3 = ...;

function_taking_multiple_params(std::tie_params(p1, p2, p3));

would be a hack for:

function_taking_multiple_params(p1, p2, p3)

You are so accustomed with the C++ restriction that a function can return at most one object, but in fact it is just an artificial language restriction, just as a restriction to accept at most one parameter would be an artificial language restriction.

The std::tie is a library hack for a missing language feature. And it has some drawbacks:

  • the variables need be declared beforehand
  • the variable types must be declared explicitly
  • Inefficient or can't be used with types that are not default constructible

Are structured bindings everything that they could have been? No, but for the most cases they are everything we need.

What is missing?

  • Explicit type for some elements: e.g.:
auto [a, std::string b, c] = foo();

where a and c have the type deduced and b is explicit "std::string"

  • Nesting. E.g.:
auto [a, [b1, b2], c] = foo();

where the second returned object from foo is a tuple like object.

  • Language feature at the return site (bypassing std::tuple all together):
auto foo() -> [int, int]

instead of

auto foo() -> std::tuple<int, int>
  • Named return objects
auto foo() -> [int& key, int& value]

... well... wouldn't that be nice

  • and combine that with... - get ready for a cool new name - Generalized return initialization:
auto minmax_element(It begin, It end) -> [It min_it, It max_it];

auto [min = *min_it, max = *max_it] = minmax_element(...);
  • What would it be the signature of function_returning_multiple_values() ? – Emerald Weapon Oct 25 '16 at 13:50
  • @EmeraldWeapon: It would return some object that structured binding operates on. For the std::tie example, it would be returning a std::tuple of types. – Nicol Bolas Oct 25 '16 at 13:56
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    @EmeraldWeapon: Structured binding is probably the best C++ is going to get. – Nicol Bolas Oct 25 '16 at 14:00
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    @EmeraldWeapon You are welcome. I see it as a hack. It's not syntactic sugar because 1. unpacking couldn't be done otherwise 2. Has drawbacks. That's how I see a syntactic sugar. For instance you can say ranged for is a syntactic sugar. Adds a new syntactic feature that lets you in less words and in a clearer way do what could have been done previously with a lousier syntax. There are things that you simply cannot do without structured bindings. E.g. initialize a non default constructible object, or a reference. – bolov Oct 25 '16 at 14:17
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    Also "decomposition operator" often desired for unpacking a struct into a list of a function arguments (saving the r/l-valueness of a compound passed to this imaginary operator). Variadic abilities are also highly desired. – Orient Oct 25 '16 at 18:28

std::tie in itself has another functionality.

It was meant for creating a tuple with references to variables

Creates a tuple of lvalue references to its arguments or instances of std::ignore.

This is useful for creating on-the-fly tuples without having to copy the variables because they are references. I just take the example from cppreference for a usecase.

bool operator<(const S& rhs) const
    // compares n to rhs.n,
    // then s to rhs.s,
    // then d to rhs.d
    return std::tie(n, s, d) < std::tie(rhs.n, rhs.s, rhs.d);

Here tuples are created but they don't copy the variables but have references.

Now because they hold references you could "hack" it to do something like this

int a,b,c;
std::tie(a,b,c) = std::make_tuple(1,2,3);

It assigns the values of the returned tuple to the one with the references in itself.

This is even on cpprefence just mentioned as a "note"

std::tie may be used to unpack a std::pair because std::tuple has a converting assignment from pairs

So in c++11 was not really an official way to directly assign values but std::tie can be used as this but maybe was never intended to be used that way.

So they introduced the new "structured binding".

Whether std::tie was meant to be used that way or is a "hack" may be personal opinion, I guess the people who introduced std::tie know best for this. But considering how structured binding kind of replaces std::tie in that instance, they came up with a solution they think is better.

  • Boost.Tuple shows tuple decomposition as the primary example for boost::tie. Indeed, it is the only example for the use of boost::tie. – Nicol Bolas Oct 25 '16 at 13:58
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    @NicolBolas Well this was about std::tie and more why it is considered a "hack" in the referred article. This in an explanation why people may think that way. I also put "hack" in quotation marks to indicate that this may not be seen as a hack but some may see this as the intention. I will edit this though to the answer. – Hayt Oct 25 '16 at 14:00

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