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What is the actual benefit and purpose of initializer_list, for unknown number of parameters? Why not just use vector and be done with it?

In fact, it sounds like just a vector with another name. Why bother?

The only "benefit" I see of initializer_list is that it has const elements, but that doesn't seem to be a reason enough to invent this whole new type. (You can just use a const vector after all.)

So, what am I mising?

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do you have one specific situation in mind? ("just use a vector and be done with it"... with what?). in order to use a vector of elements you first have to fill it up by repeated calls to push_back, while an initializer_list allows you to specify a list of elements directly in place. –  Andy Prowl Jan 19 '13 at 13:30
    
@AndyProwl std::vector<std::string> v = {"foo", "bar"}; works fine. –  Dennis Ritchie Jan 19 '13 at 13:39
4  
Note that you probably should not impersonate another person. If your real name happens to be "Dennis Ritchie" (and you are not the co-inventor of the C language, which I suspect is the case because dmr has access to the C++ language standardization committee), you might want to change it to something like "Dennis Ritchie (not the famous one)". –  Raymond Chen Jan 19 '13 at 13:40
2  
@DennisRitchie: sure it does, that expression is using an initializer_list to initialize the vector –  Andy Prowl Jan 19 '13 at 13:41
1  
@DennisRitchie: A decade or so from now on, no one is going to remember the exact date/year when Dennis Ritchie(the famous one)passed away but your comments and posts on the forum will remain active and visible and future users might mistake them coming from Dennis Ritchie(the famous one). Its not the present but the future that might be affected. –  Alok Save Jan 19 '13 at 14:23

3 Answers 3

up vote 6 down vote accepted

It is a sort of contract between the programmer and the compiler. The programmer says {1,2,3,4}, and the compiler creates an object of type initializer_list<int> out of it, containing the same sequence of elements in it. This contract is a requirement imposed by the language specification on the compiler implementation.

That means, it is not the programmer who creates manually such an object but it is the compiler which creates the object, and pass that object to function which takes initializer_list<int> as argument.

The std::vector implementation takes advantage of this contract, and therefore it defines a constructor which takes initializer_list<T> as argument, so that it could initialize itself with the elements in the initializer-list.

Now suppose for a while that the std::vector doesn't have any constructor that takes std::initializer_list<T> as argument, then you would get this:

 void f(std::initializer_list<int> const &items);
 void g(std::vector<int> const &items);

 f({1,2,3,4}); //okay
 g({1,2,3,4}); //error (as per the assumption)

As per the assumption, since std::vector doesn't have constructor that takes std::initializer_list<T> as argument, which implies you cannot pass {1,2,3,4} as argument to g() as shown above, because the compiler cannot create an instance of std::vector out of the expression {1,2,3,4} directly. It is because no such contract is ever made between programmer and the compiler, and imposed by the language. It is through std::initializer_list, the std::vector is able to create itself out of expression {1,2,3,4}.

Now you will understand that std::initializer_list can be used wherever you need an expression of the form of {value1, value2, ...., valueN}. It is why other containers from the Standard library also define constructor that takes std::initializer_list as argument. In this way, no container depends on any other container for construction from expressions of the form of {value1, value2, ...., valueN}.

Hope that helps.

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Well, std::vector has to use initializer_list to get that syntax as it obviously can't use itself.

Anyway, initializer_list is intended to be extremely lightweight. It can use an optimal storage location and prevent unnecessary copies. With vector, you're always going to get a heap allocation and have a good chance of getting more copies/moves than you want.

Also, the syntax has obvious differences. One such thing is template type deduction:

struct foo {
    template<typename T>  
    foo(std::initialer_list<T>) {}
};

foo x{1,2,3}; // works

vector wouldn't work here.

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The biggest advantage of initializer_list over vector is that it allows you to specify in-place a certain sequence of elements without requiring dedicate processing to create that list.

This saves you from setting up several calls to push_back (or a for cycle) for initializing a vector even though you know exactly which elements are going to be pushed into the vector.

In fact, vector itself has a constructor accepting an initializer_list for more convenient initialization. I would say the two containers are complementary.

// v is constructed by passing an initializer_list in input
std::vector<std::string> v = {"hello", "cruel", "world"};

Of course it is important to be aware of the fact that initializer_list does have some limitations (narrowing conversions are not allowed) which may make it inappropriate or impossible to use in some cases.

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