The C++ reference pages say that () is for value initialisation, {} is for value and aggregate and list initialisation. So, if I just want value initialisation, which one do I use? () or {}? I'm asking because in the book "A Tour of C++" by Bjarne himself, he seems to prefer using {}, even for value initialisation (see for example pages 6 and 7), and so I thought it was good practice to always use {}, even for value initialisation. However, I've been badly bitten by the following bug recently. Consider the following code.

auto p = std::make_shared<int>(3);
auto q{ p };
auto r(p);

Now according to the compiler (Visual Studio 2013), q has type std::initializer_list<std::shared_ptr<int>>, which is not what I intended. What I actually intended for q is actually what r is, which is std::shared_ptr<int>. So in this case, I should not use {} for value initialisation, but use (). Given this, why does Bjarne in his book still seem to prefer to use {} for value initialisation? For example, he uses double d2{2.3} at the bottom of page 6.

To definitively answer my questions, when should I use () and when should I use {}? And is it a matter of syntax correctness or a matter of good programming practice?

Oh and uh, plain English if possible please.

EDIT: It seems that I've slightly misunderstood value initialisation (see answers below). However the questions above still stands by and large.

  • 13
    I think this question is more about an interaction between auto and {...} than about the differences between {...} and (...). Apr 24, 2015 at 15:33
  • 18
    welcome to the joy of working in a language that was made up as we went along
    – pm100
    Apr 24, 2015 at 15:33
  • 3
    A rule of thumb I have heard is use {} until it doesn't work then use (). Also things are slated to change: stackoverflow.com/a/25612534/4342498 Apr 24, 2015 at 15:35
  • 4
    To further prove @pm100's point, in C++17, auto q{p}; will do what you expected it to (at least per the Rapperswil meeting). I'd say learn where not to use {} and avoid braces in those cases, but as that doesn't happen all too often, {} works almost everywhere. There's been discussion of using {{}} vs. {} to differentiate between list constructors and other constructors. Unfortunately, making {{}} use the list constructor would not be the backward-compatible choice.
    – chris
    Apr 24, 2015 at 15:35
  • See also Scott Meyers on auto and {}. Personally, I think the behavior of {} will still be badly broken even in C++17, because even without auto you can still get an unexpected choice of constructor calls using {}. Apr 25, 2015 at 5:44

7 Answers 7


Scott Meyers has a fair amount to say about the difference between the two methods of initialization in his book Effective Modern C++.

He summarizes both approaches like this:

Most developers end up choosing one kind of delimiter as a default, using the other only when they have to. Braces-by-default folks are attracted by their unrivaled breadth of applicability, their prohibition of narrowing conversions, and their immunity to C++’s most vexing parse. Such folks understand that in some cases (e.g., creation of a std::vector with a given size and initial element value), parentheses are required. On the other hand, the go-parentheses-go crowd embraces parentheses as their default argument delimiter. They’re attracted to its consistency with the C++98 syntactic tradition, its avoidance of the auto-deduced-a-std::initializer_list problem, and the knowledge that their object creation calls won’t be inadvertently waylaid by std::initializer_list constructors. They concede that sometimes only braces will do (e.g., when creating a container with particular values). There’s no consensus that either approach is better than the other, so my advice is to pick one and apply it consistently.

  • 13
    80% of my upvote to Scott Meyer, 20% to you for referring to his quote.
    – bolov
    Apr 24, 2015 at 15:53

This is my opinion.

When using auto as type specifier, it's cleaner to use:

auto q = p;   // Type of q is same as type of p
auto r = {p}; // Type of r is std::initializer_list<...>

When using explicit type specifier, it's better to use {} instead of ().

int a{};   // Value initialized to 0
int b();   // Declares a function (the most vexing parse)

One could use

int a = 0; // Value initialized to 0

However, the form

int a{};

can be used to value initialize objects of user defined types too. E.g.

struct Foo
   int a;
   double b;

Foo f1 = 0;  // Not allowed.
Foo f1{};    // Zero initialized.
  • 2
    In the latter case int a = 0; is definitely superior in conciseness and readability.
    – Columbo
    Apr 24, 2015 at 16:51
  • @Columbo, the form int a{}; can be used to zero initialize user defined types too.
    – R Sahu
    Apr 24, 2015 at 16:58
  • Yeah, but in that case T a = {}; is a bit nicer, IMHO. For scalars, copy-initialization is definitely the way to go though.
    – Columbo
    Apr 24, 2015 at 17:10
  • @Columbo, We might eventually come up with objective reasons why one method is superior to the other. In the mean time, it seems to be a matter of personal preference.
    – R Sahu
    Apr 24, 2015 at 17:21

First off, there seems to a terminology mixup. What you have is not value initialisation. Value initialisation happens when you do not provide any explicit initialisation arguments. int x; uses default initialisation, the value of x will be unspecified. int x{}; uses value initialisation, x will be 0. int x(); declares a function—that's why {} is preferred for value initialisation.

The code you've shown does not use value initialisation. With auto, the safest thing is to use copy initialisation:

auto q = p;
  • Ah I see my confusion of terms. Thank you for pointing it out.
    – Ray
    Apr 24, 2015 at 15:58

There is another important difference: The brace initializer requires that the given type can actually hold the given value. In other words, it forbids narrowing of the value, like rounding or truncation.

int a(2.3); // ok? a will hold the value 2, no error, maybe compiler warning
uint8_t c(256); // ok? the compiler should warn about something fishy going on

As compared to the brace initialization

int A{2.3}; // compiler error, because int can NOT hold a floating point value
double B{2.3}; // ok, double can hold this value
uint8_t C{256}; // compiler error, because 8bit is not wide enough for this number

Especially in generic programming with templates you should therefore use brace initialization to avoid nasty surprises when the underlying type does something unexpected to your input values.


{} is value initialization if empty, if not it is list/aggregate initialization.

From the draft, auto specifier, 7/... Example,

auto x1 = { 1, 2 }; // decltype(x1) is std::initializer_list<int>

Rules are a little bit complex to explain here (even hard to read from the source!).

  • How does your standard... "reference"... explain your first sentence?
    – Barry
    Apr 24, 2015 at 18:08

Herb Sutter seems to be making an argument in CppCon 2014 (39:25 into the talk) for using auto and brace initializers, like so:

auto x = MyType { initializers };

whenever you want to coerce the type, for left-to-right consistency in definitions:

  • Type-deduced: auto x = getSomething()
  • Type-coerced: auto x = MyType { blah }
  • User-defined literals auto x = "Hello, world."s
  • Function declaration: auto f { some; commands; } -> MyType
  • Named Lambda: using auto f = [=]( { some; commands; } -> MyType
  • C++11-style typedef: using AnotherType = SomeTemplate<MyTemplateArg>

Scott Mayers just posted a relevant blog entry Thoughts on the Vagaries of C++ Initialization. It seems that C++ still has a way to go before achieving a truly uniform initialization syntax.

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