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I'm writing a template class and at one point in my code would like to be able to value-initialize an object of the parameterized type on the stack. Right now, I'm accomplishing this by writing something to this effect:

template <typename T> void MyClass<T>::doSomething() {
    T valueInitialized = T();
    /* ... */

This code works, but (unless the compiler is smart) it requires an unnecessary creation and destruction of the temporary T object. What I'd like to write is the following, which I know is incorrect:

template <typename T> void MyClass<T>::doSomething() {
    T valueInitialized(); // WRONG: This is a prototype!
    /* ... */

My question is whether there is a nice way to value-initialize the automatic object without having to explicitly construct a temporary object and assign it over to the automatic object. Can this be done? Or is T var = T(); as good as it gets?

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Good question. :) (Though you should know better than to thank in a question body!) – Lightness Races in Orbit Jun 9 '11 at 19:18
Out of curiosity, why is this a concern? If T is a user-defined type, it should have a default constructor. If it's an intrinsic type, the performance loss from copy-constructing should be negligible. Even that's assuming that the compiler won't optimize it away. – Maxpm Jun 9 '11 at 19:21
@Maxpm- This is mostly out of curiosity. I've always used the T var = T(); syntax and figured that there was probably a cleaner way to do it. You're completely correct that the performance hit should be negligible. – templatetypedef Jun 9 '11 at 19:23
Also related:… – Ben Voigt Feb 19 '12 at 4:56

3 Answers 3

up vote 22 down vote accepted

The following uses copy-initialization, which is 'probably fine' 95% of the time in C++03 code:

T var = T();

But for truly generic C++03 code, you should always prefer direct-initialization:

T var((T())); // extra parentheses avoid the most vexing parse – the extra parentheses
              // force the contents to be evaluated as an expression, thus implicitly
              // *not* as a declaration.

Or better yet, use the Boost.Utility.ValueInit library, which packages up the ideal behavior for you along with workarounds for various compiler deficiencies (sadly, more than one might think).

For C++11, one can use uniform-initialization syntax to achieve direct value-initialization in a significantly less noisy/ugly manner:

T var{}; // unambiguously value-initialization
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Ugh, that looks like LISP. :) Does this really work with all types? +1 from me for suggesting a boost library. – sbi Jun 9 '11 at 19:21
Yes, it works with all types. The parentheses are benign but disambiguate the declaration. – ildjarn Jun 9 '11 at 19:25
Unless I'm misinterpreting the difference between direct- and copy-initialization, this only makes a difference in whether conversion constructors are permitted, not in whether a temporary object is created. Is this correct? If so, what advantage does this particular approach offer over the copy-initialized version? – templatetypedef Jun 9 '11 at 21:07
@templatetypedef : According to the standard there's no advantage either way in this context/usage, but some older compilers elide the copy in the case of direct-initialization and not in the case of copy-initialization (MSVC and Borland especially come to mind, but I seem to recall GCC prior to 3.4 being similarly affected). I.e., if your code is only going to be built with recent compilers it's inconsequential -- hence "which is probably fine 99% of the time." – ildjarn Jun 9 '11 at 21:19
+1 for the partial quote "the most vexing parse" – Thomas Matthews Jun 9 '11 at 21:32

You can use curly braces in C++0x:

T valueInitialized{};
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Ah, I hadn't thought of C++11! +1 from me! – sbi Jun 9 '11 at 19:20

No, there isn't any other way to reliably value-initialize a template type in C++03.

If you can count on T only being class types with default constructors, you could just write

T valueInitialized;

but if T might as well be a built-in type,

T valueInitialized = T();

is the way to go.

Do you have any reason to not to trust your compiler to optimize away that copy?

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Oh, I absolutely trust the compiler to do it. :-) This is mostly a question about whether there's a more elegant way to do this that doesn't rely on a smart compiler author. – templatetypedef Jun 9 '11 at 19:21

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