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I have tried to use C++0x initializer list as argument to a constructor call in this way:

Foo<float> foo("Foo 1", std::vector<const char *>({ "foo A", "foo B" }) );

with the constructor

Foo(const char *name, std::vector<const char *> &foos)

With this constructor the compiler complained:

error: no matching function for call to Foo<float>::Foo(
    const char [5], std::vector<const char *, std::allocator<const char *> >)
note: candidates are: Foo<T>::Foo(const char *, std::vector<const char *,
    std::allocator<const char *> >&) [with T = float]

However, when I've changed the constructor to

Foo(const char *name, std::vector<const char *> foos)

Everything worked as expected. Why does the first constructor not work? I thought the vector could be constructed in the place of constructor call and passed down by reference, but obviously there's some problem. Could anybody explain that?

Thanks

Btw. I am using g++ version 4.4.5

EDIT: Thanks to the correct answers below, I have found also why I can't do that.

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3  
Have you tried a const reference? –  Oliver Charlesworth Jun 10 '11 at 10:19
    
Why are you saying std::vector<const char *>({ "foo A", "foo B" }) ? That's needlessly introducing another temporary using the move constructor that the compiler has to elide. Better say std::vector<const char *>{ "foo A", "foo B" }. Of course you can just say Foo<float> foo{"Foo 1", {"foo A", "foo B"}}. –  Johannes Schaub - litb Jun 10 '11 at 10:56

6 Answers 6

up vote 7 down vote accepted

You cannot bind a temporary to a T&.

You can bind a temporary to T const&:

Foo(const char* name, std::vector<const char*> const& foos)

But I'd question the sanity of a vector of char pointers. What's wrong with std::string?

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Says about everything that has gone wrong here. Could you also not just pass the brace initializer list without the explicit call to the vector constructor? –  rubenvb Jun 10 '11 at 10:34
    
You're right, when I used const std::vector<> &, I can pass the brace initializer list itself. I am not using std::string, because the strings mostly get passed to C API underneath as they are - no concatenating and such. –  Flavius Jun 10 '11 at 10:56
1  
Flavius: well, that's really no reason not to use std::string. It's safer (not ugly pointers all over the place) and std::string::c_str() only returns the address of the beginning of the internal data array (in all modern implementations, this is mandated by the C++11 Standard), which is instantaneous. –  rubenvb Jun 10 '11 at 11:06
    
@Flavius: rubenvb is right. Needing to pass a char buffer to underlying C APIs is absolutely not a reason to avoid std::string. (What you said would be rather like storing an int as its individual, component bits in bools, just because you never do a + operation.) The benefits are enormous. –  Lightness Races in Orbit Jun 10 '11 at 11:13

Temporary cannot be bound to non-const reference, so do this:

Foo(const char *name, const std::vector<const char *> &foos)
                    //^^^^ note this
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The initializer list is a red hering, I think. You are trying to bind a temporary to a non-const reference, which is illegal. Try using a const reference.

Foo(const char *name, std::vector<const char *> const& foos)
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std::vector<const char *> &foos is lvalue reference. You are trying to pass rvalue, this is wrong. You can use either rvalue reference std::vector<const char *> &&foos or const reference const std::vector<const char *> &foos

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You cannot bind an rvalue std::vector to a non-const lvalue reference. You must take a const lvalue reference or an rvalue reference.

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You already have your answer, but since you have "initializer list" in the title, you may want to consider writing a (C++0x) initializer-list constructor, e.g. like so:

struct Foo {
    Foo(const char* name, std::initalizer_list<const char*> il)
      : name(name), buf(il)
    { }
private:
    const char * const name;
    std::vector<const char *> buf;
};

Then you're no longer an aggregate, but you can construct it like so:

Foo x("Name", { "ab", "cd", "ef" });

You even pass il as const-reference if you prefer.

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