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?
The following uses copy-initialization, which is ‘probably fine’ 95% of the time in C++03:
But for generic (C++03) code, you should always prefer direct-initialization to account for that other 5%:
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 list-initialization syntax to achieve direct value-initialization in a significantly less noisy/ugly manner:
(†N.b. technically this will invoke
std::initializer_list<>constructors instead of performing value-initialization for certain pathological types. Presumably the net result should be the same.)