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Here are two ways to initialize a variable in C++11:

T a {something};
T a = {something};

I tested these two in all scenarios I could think of and I failed to notice a difference. This answer suggests that there is a subtle difference between the two:

For variables I don't pay much attention between the T t = { init }; or T t { init }; styles, I find the difference to be minor and will at worst only result in a helpful compiler message about misusing an explicit constructor.

So, is there any difference between these two?

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up vote 18 down vote accepted

The only significant difference I know is in the treatment of explicit constructors:

struct foo
    explicit foo(int);

foo f0 {42};    // OK
foo f1 = {42};  // not allowed

This is similar to the "traditional" initialization:

foo f0 (42);  // OK
foo f1 = 42;  // not allowed

See [over.match.list]/1.

Apart from that, there's a defect (see CWG 1270) in C++11 that allows brace-elision only for the form T a = {something}

struct aggr
    int arr[5];

aggr a0 = {1,2,3,4,5};  // OK
aggr a1 {1,2,3,4,5};    // not allowed
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Doesn't a = {something} also result in an extra copy/move? – gvd Dec 23 '13 at 3:46
@gvd No, that's where "traditional" copy-init and copy-list-init differ: foo f0 = 42; converts 42 to a prvalue temporary foo and direct-initializes f0 with that temporary (via a possibly elided copy/move), whereas foo f1 = {42}; selects a constructor of f1 to be called with 42 (the copy+move ctor may be deleted in this case). – dyp Dec 23 '13 at 11:00

T a {something}; T a = {something};

As in first case that is "direct initialization" here a is initialized with something (directly). while in second case is called "copy initialization" because first compiler copy the something value to temporary variable and then copy to your variable a . As to restrict the compiler to only direct initialization can be done prefix explicit to the class constructor. which would stop unnecessary copy or initialization . the second conversion can be also optimized by the compiler in (implicit conversion). and finally end up by calling other constructor which we don't require

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Regarding the speed differences you mentioned, looks like there is none. T a {arg1, arg2}; & T a = {arg1, arg2}; produce the same assembly on my clang 3.3. – Nikita Dec 24 '13 at 21:37
Although it is true that the first one is called direct-initialization and the second one copy-initialization, both are also list-initialization. The semantics of list-initialization are different from "traditional" initialization: There's not necessarily a temporary created in the second case, depending on what the list-init is resolved to (even w/o copy/move elision). If something is of the type T, typically a will be copy-constructed "directly" from something. See [dcl.init.list] and my response to gvd. – dyp Dec 26 '13 at 12:49

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