Is it possible to declare a variable var_b of the same type as another variable, var_a?

For example:

template <class T>
void foo(T t) {

   auto var_a = bar(t);
   //make var_b of the same type as var_a


F_1 bar(T_1 t) {


F_2 bar(T_2 t) {


Sure, use decltype:

auto var_a = bar(t);
decltype(var_a) b;

You can add cv-qualifiers and references to decltype specifiers as if it were any other type:

const decltype(var_a)* b;
  • it may be worth mentioning that decltype() gives you the exact type. in this example, if var_a is a reference, b won't be default constructible and will fail to compile. Clearly, this can be the case for any user defined type too. – Arvid May 24 '16 at 3:53
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    You can get around the reference issue with std::remove_reference: std::remove_reference<decltype(var_a)>::type b; – Mego May 24 '16 at 5:13
decltype(var_a) var_b;

And a Lorem Ipsum to reach the required minimum of 30 characters per answer.

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    The Lorem Ipsum sold me. – KyleKnoepfel May 23 '16 at 15:30
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    If your answer is code-only, and so little that you need to add nonsense to it, ask yourself whether it's a good (good != helpful) answer or not. Consider linking to documentation for example. – Tas May 23 '16 at 21:42
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    @Tas You seem to be of the opinion that this answer is not helpful. Why not? – immibis May 24 '16 at 0:09
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    @Tas, by "room for improvement", do you mean prepending explanations to explanations like "Use decltype" and assuming that op is unable to deduce that I suggest using decltype from the code snippet? or that op is unable to search for the keyword to get additional detail as needed? Sorry, I'm not that assuming. :( – bipll May 24 '16 at 4:17
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    But if you feel the OP would need to search for more details, isn't that the clue that your answer could just provide the details, or a link to said details, rather than literally writing nonsense? I'm not saying write an essay on decltype, but if you had to write nonsense, I feel it would've been more constructive to provide a link. Regardless, your answer is helpful (gives the OP the necessary information etc), I feel the extra characters you needed to write could've been better spent. – Tas May 24 '16 at 4:47

Despite the nice answer of @TartanLlama, this is another way one can use decltype to name actually the given type:

int f() { return 42; }

void g() {
    // Give the type a name...
    using my_type = decltype(f());
    // ... then use it as already showed up
    my_type var_a = f();
    my_type var_b = var_a;
    const my_type &var_c = var_b;

int main() { g(); }

Maybe it's worth to mention it for the sake of completeness.

I'm not looking for credits for it's almost the same of the above mentioned answer, but I find it more readable.

  • The downvote is interesting. I'd like to know what it is for at least... – skypjack May 24 '16 at 12:14
  • Maybe it was because you have a superfluous call to f(). So, depending on the nature of f() (long calculation time, side effects etc.) this might be very bad. – M.Herzkamp May 24 '16 at 13:16
  • @M.Herzkamp We are speaking about compile time, isn't it? Anyway, just curious, I don't like much who goes without leaving a comment to explain - those are the comments that usually help to improve my knowledge, that's all. – skypjack May 24 '16 at 13:19
  • Oh, well, my bad. Today I learned that the argument of decltype is not evaluated. – M.Herzkamp May 24 '16 at 14:12
  • @M.Herzkamp That's why comments are welcome, even if they are due to a downvote!! :-) – skypjack May 24 '16 at 14:13

In ancient times before c++11 arrived people dealt with it using pure templates.

template <class Bar>
void foo_impl(Bar var_a) {
   Bar var_b; //var_b is of the same type as var_a

template <class T>
void foo(T t) {

F_1 bar(T_1 t) {


F_2 bar(T_2 t) {

  • And a downvote is for...? – W.F. May 23 '16 at 21:35
  • It wasn't my vote, but I'm guessing for posting an answer that's not really relevant any longer to C++11 and newer to a question that was tagged C++11. – user743382 May 23 '16 at 22:21
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    @hvd as far as I know templates are still there in C++11... – W.F. May 23 '16 at 22:35
  • Personally, I'd say this answer is good for maintaining legacy code, or for writing new code designed to integrate with a code base from pre-C++11, but decltype would be more useful for projects developed for C++11 or later. – Justin Time May 24 '16 at 0:17
  • Legacy code still exists so I'd say this is still relevant. Especially when most compilers still aren't entirely C++11 compliant (about 99%, but that 1% still matters). Besides which the OP has already demonstrated that they're using templates already, and I'd say this solution could be used in conjunction with decltype, it's not as if the two are mutually exclusive. – Pharap May 24 '16 at 2:03

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