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What are good use-cases for using tuples in C++11? For example, I have a function that defines a local struct as follows:

template<typename T, typename CmpF, typename LessF>
void mwquicksort(T *pT, int nitem, const int M, CmpF cmp, LessF less)
{
  struct SI
  {
    int l, r, w;
    SI() {}
    SI(int _l, int _r, int _w) : l(_l), r(_r), w(_w) {}
  } stack[40];

  // etc

I was considering to replace the SI struct with an std::tuple<int,int,int>, which is a far shorter declaration with convenient constructors and operators already predefined, but with the following disadvantages:

  • Tuple elements are hidden in obscure, implementation-defined structs. Even though Visual studio interprets and shows their contents nicely, I still can't put conditional breakpoints that depend on value of tuple elements.
  • Accessing individual tuple fields (get<0>(some_tuple)) is far more verbose than accessing struct elements (s.l).
  • Accessing fields by name is far more informative (and shorter!) than by numeric index.

The last two points are somewhat addressed by the tie function. Given these disadvantages, what would be a good use-case for tuples?

UPDATE Turns out that VS2010 SP1 debugger cannot show the contents of the following array std::tuple<int, int, int> stack[40], but it works fine when it's coded with a struct. So the decision is basically a no-brainer: if you'll ever have to inspect its values, use a struct [esp. important with debuggers like GDB].

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2  
the indexing problem can be solved with proper defined consts/enums. –  KillianDS Apr 21 '12 at 13:42
2  
You wrote a sort function that takes T*, size? lolwot, why would you ever do such a thing. –  Puppy Apr 21 '12 at 13:42
1  
@zvrba : He's not trolling (or maybe he is, but), he's right. –  ildjarn Apr 21 '12 at 16:04
3  
"FYI, the underlying data structure in the main program is a vector (I'm not a masochist, so I don't want to fiddle with allocations manually) and the pointer comes from &vec[0]." So pass a std::vector<T>& rather than a T* and make the API more sensible. (BTW, being aggressive towards the people you expect to help you is more than slightly stupid.) –  ildjarn Apr 21 '12 at 19:28
7  
@zvrba: Just take two generic iterators. Pass v.begin() and v.end(), or std::begin(arr) and std::end(arr). Done. –  GManNickG Apr 25 '12 at 14:36

7 Answers 7

up vote 17 down vote accepted

Well, imho, the most important part is generic code. Writing generic code that works on all kinds of structs is a lot harder than writing generics that work on tuples. For example, the std::tie function you mentioned yourself would be very nearly impossible to make for structs.

this allows you to do things like this:

  • Store function parameters for delayed execution (e.g. this question )
  • Return multiple parameters without cumbersome (un)packing with std::tie
  • Combine (not equal-typed) data sets (e.g. from parallel execution), it can be done as simply as std::tuple_cat.

The thing is, it does not stop with these uses, people can expand on this list and write generic functionality based on tuples that is much harder to do with structs. Who knows, maybe tomorrow someone finds a brilliant use for serialization purposes.

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1  
Marked as answer since you've made me aware of tuple_cat, which wasn't listed in MSDN for VS2010. But how would you declare the return value of a function that returns tuple_cat(x,y) for some tuples x and y whose types are not easily deducible from function arguments? –  zvrba Apr 22 '12 at 4:36

It is an easy way to return multiple values from a function;

std::tuple<int,int> fun();

The result values can be used elegantly as follows:

int a;
int b;
std::tie(a,b)=fun();
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I think most use for tuples comes from std::tie:

bool MyStruct::operator<(MyStruct const &o) const
{
    return std::tie(a, b, c) < std::tie(o.a, o.b, o.c);
}

Along with many other examples in the answers here. I find this example to be the most commonly useful, however, as it saves a lot of effort from how it used to be in C++03.

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I think there is NO good use for tuples outside of implementation details of some generic library feature.

The (possible) saving in typing do not offset the losses in self-documenting properties of the resulting code.

Substituting tuples for structs that just takes away a meaningful name for a field, replacing the field name with a "number" (just like the ill-conceived concept of an std::pair).

Returning multiple values using tuples is much less self-documenting then the alternatives -- returning named types or using named references. Without this self-documenting, it is easy to confuse the order of the returned values, if they are mutually convertible.

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Have you ever used std::pair? Many of the places you'd use std::tuple are similar, but not restricted to exactly two values.

The disadvantages you list for tuples also apply to std::pair, sometimes you want a more expressive type with better names for its members than first and second, but sometimes you don't need that. The same applies to tuples.

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The real use cases are situations where you have unnameable elements- variadic templates and lambda functions. In both situations you can have unnamed elements with unknown types and thus the only way to store them is a struct with unnamed elements: std::tuple. In every other situation you have a known # of name-able elements with known types and can thus use an ordinary struct, which is the superior answer 99% of the time.

For example, you should NOT use std::tuple to have "multiple returns" from ordinary functions or templates w/ a fixed number of generic inputs. Use a real structure for that. A real object is FAR more "generic" than the std::tuple cookie-cutter, because you can give a real object literally any interface. It will also give you much more type safety and flexibility in public libraries.

Just compare these 2 class member functions:

std::tuple<double, double, double>  GetLocation() const; // x, y, z

GeoCoordinate  GetLocation() const;

With a real 'geo coordinate' object I can provide an operator bool() that returns false if the parent object had no location. Via its APIs users could get the x,y,z locations. But here's the big thing- if I decide to make GeoCoordinate 4D by adding a time field in 6 months, current users's code won't break. I cannot do that with the std::tuple version.

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Interoperation with other programming languages that use tuples, and returning multiple values without having the caller have to understand any extra types. Those are the first two that come to my mind.

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C++ doesn't interoperate with anything else than itself and C. –  zvrba Apr 21 '12 at 14:27
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@zvrba: that's "compile" time interop, runtime interop is also possible. Also, another language can use C++ interfaces. I bet things like boost.python could benefit from this. –  KillianDS Apr 21 '12 at 14:40
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@zvrba: C++ interoperates with .NET, Python, Lua, Ruby, Perl, Fortran, etc. Interoperate here means being able to link and call functions...and if you're going to write glue libraries like Boost Python, Luabind, Rcpp, etc., it's nice to have features like tuples available as part of the language vocabulary to make the interop appear as seamless as possible. –  John Zwinck Apr 21 '12 at 19:25
1  
@JohnZwinck "Interoperate" means to me being to call functions in other languages without writing glue layers. So that encompasses C, C++, and Fortran, which I have forgotten. But I agree it's nice to have tuples which allow to more closely mirror the "other language's" API. –  zvrba Apr 22 '12 at 4:21

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