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I have the following constructor:

MyItem(std::initializer_list<double> l) {
    std::cout << "l size " << l.size() << ")" << std::endl;

Which is called later with double curly braces:


The result l.size() gives is 1.

What's the mechanics behind such behavior?

It seems like nested {} plays like a default constructor for the only element, but I don't quite understand why and how type deduction works here.

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Take into account that there is a Russian stackoverflow at – Vlad from Moscow Jan 10 at 17:06
up vote 9 down vote accepted

When you use braces (list-initialization) to initialize the MyItem object, the list constructor you have shown is very greedy.

These would pass an empty list:

MyItem foo({});
MyItem foo{std::initializer_list<double>{}};

This passes a list containing a single element - a value-initialized double (0.0):

MyItem foo{{}};

This works because there are certain contexts where you can simply use braces in place of a known type. Here, it knows from preferring the list constructor that the given list should contain double.

For completeness, this looks like it passes an empty list, but it actually value-initializes foo if it has a default constructor (or in special cases, does something almost equivalent). If there's no default constructor, it would choose the list constructor, as shown here.

MyItem foo{};
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Could you how exactly it deduces the type? Does { } play role of default constructor? There is no type or auto specified. I'm interested in mechanics like what steps compiler takes to deduce it. – Nikolay Polivanov Jan 10 at 16:25
@NikolayPolivanov, This might be the most tricky context where braces are allowed like this. In general, they're allowed when you would be repeating the type and the compiler already knows it. For example, you have void foo(string). Let's say you want to pass the first n characters of "abcde", where n is a variable. You'd normally do something like foo(string("abcde", n));. However, it's obviously a string, so why repeat the type? foo({"abcde", n}); When you use {}, it's typically value-initialization, which is usually 0 or the default constructor. foo({}); passes an empty string. – chris Jan 10 at 16:39
Even then, the list constructor is very greedy. For example, std::string has a list constructor taking a list of char. If you do foo({5, 'A'});, you might expect to get a string with five A characters (AAAAA) because there's a constructor for that. However, even though 5 isn't a char, it is still convertible to one, meaning you actually get the character with the value 5 (likely a control character), followed by a single A. That's how greedy these are. The (const char*, size_t) call works because "abcde" isn't convertible to char. – chris Jan 10 at 16:41
Going back to the example from the question, it's more obvious to see why foo({}); knows to make a string from the braces - there's only one type it could be! In the same way, there's a rule saying that the MyItem foo{{}}; call will create an initializer_list<double> from the elements (just the inner {} here) if at all possible. There's another rule saying that to make a double from {}, you get the value 0.0. Put these together and you can see that it is possible to make an initializer_list<double> - one element, where {} is turned into 0.0. – chris Jan 10 at 16:56
Thanks. Just to unstick from 1-element example here is the way to create initializer_list with 3 double MyItem{{},{},{}} - so it already knows the type from the template parameter. – Nikolay Polivanov Jan 10 at 19:38

This expression


denotes explicit type conversion (the functional notation).

According to the C++ Standard (5.2.3 Explicit type conversion (functional notation))

  1. Similarly, a simple-type-specifier or typename-specifier followed by a braced-init-list creates a temporary object of the specified type direct-list-initialized (8.5.4) with the specified braced-init-list, and its value is that temporary object as a prvalue.

Class MyItem has conversion initializer-list constructor

MyItem(std::initializer_list<double> l) {
    std::cout << "l size " << l.size() << ")" << std::endl;

that is selected for the explicit type conversion. In fact it is equivalent to the call

MyItem( {{}} );

So the constructor gets an initializer list with one element

{ {} }

A scalar object of type double can be initialized with an empty braces {}.

As result the expression creates a temporary object of type MyItem which is initialized by an initializer list that contains one element of type double that is value-initialized by means of empty braces.

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