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more to the point, what's wrong with this code:

#include <assert.h>
#include <functional>
using namespace std;

    template< class BaseObjectId >
    class Check
        Check( function<bool()> const f ) { assert( f() ); }

    template< int tpMinValue, int tpMaxValue >
    class IntegerSubrange
        : private Check< IntegerSubrange< tpMinValue, tpMaxValue > >
        int     value_;

        enum :int { minValue = tpMinValue, maxValue = tpMaxValue };

        static bool rangeContains( int const x )
            return (minValue <= x && x <= maxValue);

        operator int() const
            return value_;

        void operator/=( int const rhs )
            value_ /= rhs;
            assert( rangeContains( value_ ) );

        explicit IntegerSubrange( int const value )
            : Check< IntegerSubrange< tpMinValue, tpMaxValue > >(
                [=]() -> bool { return rangeContains( value ); }
            , value_( value )

int main() {}

Visual C++ reports a syntax error:

foo.cpp(41) : error C2059: syntax error : ')'
        foo.cpp(44) : see reference to class template instantiation 'IntegerSubrange' being compiled
foo.cpp(42) : error C2059: syntax error : ','
foo.cpp(43) : error C2334: unexpected token(s) preceding '{'; skipping apparent function body
share|improve this question
Compiles fine with g++ 4.6.3 – Vaughn Cato Jul 1 '12 at 17:06
ah, i need to update my g++ then. i'll check with visual c++ 11 also! It compiles fine with Visual C++ 11, I wouldn't have believed it – Cheers and hth. - Alf Jul 1 '12 at 17:23
@Griwes: g++ 4.6.3 is newer than 4.6.1, and 4.6.1 compiles lambdas just fine. – Cheers and hth. - Alf Jul 1 '12 at 19:58
@Cheersandhth.-Alf, EitanT linked a proof that 4.3.4 doesn't compile it - I was referring to that - now deleted - comment. – Griwes Jul 1 '12 at 19:59
Actually it compiles on gcc-4.5.1 as well... – Eitan T Jul 1 '12 at 21:46
up vote 4 down vote accepted

To summarize the comments: The questioner's code is valid. Apparently some compilers older than GCC 4.4 or Visual C++ 2011 will reject it, due to those compilers' incomplete support for C++11-style lambdas. But modern compilers (and certainly any compiler that claims to support the new C++11 standard) should handle it just fine.

To answer your question literally: In a ctor-initializer-list, the same identifiers are available (and refer to the same things) as they would refer to if you moved them inside the curly braces of the constructor function itself. In particular, this means that you can do

class C {
    const char *p_ = "foo";
    char c_;
    C(int): p_(__func__) { }      // referring to "__func__"
    C(double): c_(*this->p_) { }  // referring to "this"

Here's what the Standard has to say on the subject:

Names in the expression-list or braced-init-list of a mem-initializer are evaluated in the scope of the constructor for which the mem-initializer is specified. ... [Note: Because the mem-initializer are [sic] evaluated in the scope of the constructor, the this pointer can be used in the expression-list of a mem-initializer to refer to the object being initialized. —end note]    (N3337 §12.6.2 #12)

share|improve this answer
Glad to help. I often trawl for interesting unanswered questions, so if I see an interesting question that's been "answered" in comments but not in a real "Answer", I'll often write one up just to get it out of my search results. :) – Quuxplusone Sep 14 '12 at 18:58

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