The C++17 standard introduces "template deduction guides". I gather they're something to do with the new template argument deduction for constructors introduced in this version of the standard, but I haven't yet seen a simple, FAQ-style explanation of what they are and what they're for.

  • What are template deduction guides in C++17?

  • Why (and when) do we need them?

  • How do I declare them?

up vote 61 down vote accepted

Template deduction guides are patterns associated with a template class that tell the compiler how to translate a set of parameter (and their types) into template arguments.

The simplest example is that of std::vector and its constructor that takes an iterator pair.

template<typename Iterator>
void func(Iterator first, Iterator last)
{
  vector v(first, last);
}

The compiler needs to figure out what vector<T>'s T type will be. We know what the answer is; T should be typename std::iterator_traits<Iterator>::value_type. But how do we tell the compiler without having to type vector<typename std::iterator_traits<Iterator>::value_type>?

You use a deduction guide:

template<typename Iterator> vector(Iterator b, Iterator e) -> 
    vector<typename std::iterator_traits<Iterator>::value_type>;

This tells the compiler that, when you call a vector constructor matching that pattern, it will deduce the vector specialization using the code on the right of ->.

You need guides when the deduction of the type from the arguments is not based on the type of one of those arguments. Initializing a vector from an initializer_list explicitly uses the vector's T, so it doesn't need a guide.

The left side doesn't necessarily specify a constructor. The way it works is that, if you use template constructor deduction on a type, it matches the arguments you pass against all deduction guides (actual constructors of the primary template provide implicit guides). If there is a match, it uses that to determine which template arguments to provide to the type.

But once that deduction is done, once the compiler figures out the template parameters for the type, initialization for the object of that type proceeds as if none of that happened. That is, the deduction guide selected does not have to match the constructor selected.

This also means that you can use guides with aggregates and aggregate initialization:

template<typename T>
struct Thingy
{
  T t;
};

Thingy(const char *) -> Thingy<std::string>;

Thingy thing{"A String"}; //thing.t is a `std::string`.

So deduction guides are only used to figure out the type being initialized. The actual process of initialization works exactly as it did before, once that determination has been made.

  • 4
    Hmm, it just occurred to me that even with the guide, vector v{first, last}; won't do the right thing :( – T.C. Dec 3 '16 at 20:02
  • 9
    @T.C.: That's "uniform initialization" for you. – Nicol Bolas Dec 3 '16 at 20:42
  • @T.C. … unless the right thing is making a vector of iterators. And std::string{32,'*'}[0] == ' ' (for ASCII). But this has all been true since C++11. – Arne Vogel Oct 20 '17 at 14:16
  • what happens with the allocator vector parameter ? what would happend if the allocator vector parameter wouldn't have a default argument? (you cannot deduce it from InputIterator) – gnzlbg Oct 27 '17 at 16:19
  • 1
    @NicolBolas: I see. It's not clear to me that the question is about explicit deduction guides at all... I think it's helpful if you just include what you literally wrote in this comment. – Mehrdad Jul 13 at 13:35

Here is a use case of deduction guide I used to simplify proxy object construction in a proxy pattern. Hope it may give you some ideas simplest things we can do proxy pattern using modern c++ The deduction guides I used are :

ProxyContainer(vector<string>&) -> ProxyContainer<<vector<string>, string>;

ProxyContainer(int*) -> ProxyContainer<<vector<int>, int>;
  • Please be careful with linking to your own content on different sites, you don't want to be a spammer. You should be including the majority of the content here, and use the link only as a reference. – Andrew Myers Jun 16 at 3:50

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