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This follows yesterday's question, where I gave some C++ code that Visual Studio 2013 couldn't handle, and @galop1n kindly provided a workaround, which worked perfectly for that case. But now I've gone a tiny bit further and Visual Studio is giving me grief again.

template <typename T>
using ValueType = typename T::value_type;

template<typename... Containers>
foo(const Containers &...args) {
    std::tuple<ValueType<Containers>...> x;

template<typename... Containers>
struct Foo {
    std::tuple<ValueType<Containers>...> x;

Whenever I try to instantiate either function template foo or class template Foo, I get these two messages:

Test.cpp(21): error C3546: '...' : there are no parameter packs available to expand


Test.cpp(21): error C3203: 'ValueType' : unspecialized alias template can't be used as a template argument for template parameter '_Types', expected a real type

In each case (instantiating foo or instantiating Foo), both messages point to the line that defines "x".

UPDATE: My Microsoft bug report now has (in its attachment) all the basic variants of this problem. So that would be the place to watch for a fix.

share|improve this question
Man you're just in suck-land, once again, Both work flawless on my Mac clang (clang-500.2.79) (based on LLVM 3.3svn). ugh. I don't have my VS2013 up and running so save me some typing and tell me, does VS2013 support template-template parameters? if so, there may be another work-around (at least from me, someone else may have other ideas as well, obviously). Edit: scratch that, not going to work how I wanted. yuck. – WhozCraig Feb 7 '14 at 5:19
Maybe using a classic meta-function instead of a type alias might work, e.g. template<typename T> struct value_type { typedef typename T::value_type type; }; – pmr Feb 7 '14 at 11:35
@pmr, you define "type" with a typedef inside a template class, which is the same way that the containers define "value_type"; so the problem for application code accessing your "type" is essentially the same problem over again, right? – slyqualin Feb 8 '14 at 0:24
@slyqualin Yes, you don't get the benefits of using declarations and will have to write typename all over the place, but it might convince the broken piece of technology you are using to actually let the code compile. – pmr Feb 8 '14 at 0:43
@pmr I wouldn't mind writing typename all over the place, except that's how I got into trouble in the first place. – slyqualin Feb 8 '14 at 0:58

1 Answer 1

Maybe following works on VS2013 (more verbose :/ ):

template<typename... Containers>
void foo(const Containers &...args) {
    std::tuple<typename std::decay<decltype(*args.begin())>::type...> x;

template<typename... Containers>
struct Foo {
    std::tuple<typename std::decay<decltype(*std::declval<Containers>().begin())>::type...> x;
share|improve this answer
Thanks for trying, but you see this, like @pmr's solution, repeats the idiom that got me into strife in my first posting, i.e. it's using an expression of the form std::tuple<typename BlahBlah::some_type ...>. If VS2013 undestood that, then I would have been a happy man long ago. :) – slyqualin Feb 8 '14 at 12:14
Btw, the verbosity doesn't worry me, considering that my best workaround so far is to repeat my template for 1 arg, 2 args, 3 args and 4 args. – slyqualin Feb 8 '14 at 12:16

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