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I wish to have a non-template class with a template constructor with no arguments.

As far as I understand, it's impossible to have it (because it would conflict with the default constructor - am I right?), and the workaround is the following:

class A{
   template <typename U> A(U* dummy) {
   // Do something

Maybe there is a better alternative for this (or a better workaround)?

Thank you.

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What do you need that for? –  Johannes Schaub - litb Oct 18 '10 at 15:58
I would echo Johannes question. Why? There could be a better technique if we understand what you are trying to do. –  Loki Astari Oct 18 '10 at 18:24
@Loki It would be nice to have if generating something from a sequence of inputs (like vector's templated iterator constructor). –  VF1 Aug 6 '13 at 22:50

6 Answers 6

up vote 48 down vote accepted

There is no way to explicitly specify the template arguments when calling a constructor template, so they have to be deduced through argument deduction. This is because if you say:

Foo<int> f = Foo<int>();

The <int> is the template argument list for the type Foo, not for its constructor. There's nowhere for the constructor template's argument list to go.

Even with your workaround you still have to pass an argument in order to call that constructor template. It's not at all clear what you are trying to achieve.

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It MAY be possible with qualifed constructor call, but seems does not work: Foo<int>::Foo<short>(); –  John Aug 23 '12 at 9:03
But automatic type inference is still possible. As long as you are satisfied with automatic type inference, you can use a template constructor (of a non-template class). –  updogliu Sep 1 '12 at 3:38
@updogliu: Absolutely. But, the question is asking about "a template constructor with no arguments" If there are no function arguments, no template arguments may be deduced. –  James McNellis Sep 1 '12 at 3:39

As far as I understand, it's impossible to have it (because it would conflict with the default constructor - am I right?)

You are wrong. It doesn't conflict in any way. You just can't call it ever.

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You can create a templated factory function:

class Foo
    template <class T> static Foo* create() // could also return by value, or a smart pointer
        return new Foo(...);
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But what about normal objects. –  Loki Astari Oct 18 '10 at 16:08
@Martin: I think this could also return by value (a non-pointer). RVO should take care of eliminating the copy anyway. –  UncleBens Oct 18 '10 at 16:17
create() does not have to do dynamic allocation. Just return Foo(...); Thanks @Samuel_xL. This turned out to be a great idea for me. –  NoahR Feb 26 '13 at 5:08

Some points:

  • If you declare any constructor(including a templated one), the compiler will refrain from declaring a default constructor.
  • Unless you declare a copy-constructor (for class X one that takes X or X& or X const &) the compiler will generate the default copy-constructor.
  • If you provide a template constructor for class X which takes T const & or T or T& then the compiler will nevertheless generate a default non-templated copy-constructor, even though you may think that it shouldn't because when T = X the declaration matches the copy-constructor declaration.
  • In the latter case you may want to provide a non-templated copy-constructor along with the templated one. They will not conflict. When X is passed the nontemplated will be called. Otherwise the templated


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Funny thing is that if you declare sometihng like template <typename T> X(const X&); then it still will not be recognized as copy constructor, and standard copy-constructor will be created. –  j_kubik Jun 27 '11 at 17:28
@j_kibik: Yes, the same is about templated assignment –  Armen Tsirunyan Jun 27 '11 at 17:30

try doing something like

template<class T, int i> class A{


    A( A<int, 1>* a){
          //do something
    A( A<float, 1>* a){
         //do something
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this can also be done with template functions by defining a non-template class, a template constructor which is called from a non-template default constructor. –  user2616927 Oct 3 '13 at 20:31

Here's a workaround.

Make a template subclass B of A. Do the template-argument-independent part of the construction in A's constructor. Do the template-argument-dependent part in B's constructor.

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protected by Marco A. Nov 26 '14 at 17:31

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