some time ago we abandoned our own tuple type in favour of std::tuple
Since then, the helpers and ported utilities provide some generic helpers
to deal with variadic argument sequences, especially to build index sequences,
which in turn can be used to "pick" individual arguments from a variadic parameter pack.
The expectation is for this part of the support library gradually to grow and
in parts to replace the existing type sequence processing helpers. The expectation
is that we'll retain the basic type sequence, lib::meta::Types, but retrofit it
to rely on variadic arguments
since the adoption of C++11, we gradually transition our metaprogramming helpers
to support and rely on variadic template parameters. For the time being,
we just augment existing facilities when it comes in handy, yet some more
heavyweight lifting and overall clean-up remains to be done eventually.
after reading some related code, I am leaning towards a design
to mirror the way command messages are sent over the UI-Bus.
Unfortunately this pretty much abandons the possibility to
invoke these operations from a client written in C or any
other hand made language binding. Which pretty much confirms
my initial reservation towards such an excessively open
and generic interface system.
because this element picking mechanism for tuples
looks like an instance of something generic.
At least I've written almost the same just some days ago
for the revised version of function-closure, where the
task was to replace a stretch of type arguments in
a given tuple type with a stretch of placeholder types
and then to build a modified ctor, which just fills
in the remaining arguments, while default constructing
the placeholder types. And if we look into the GNU
implementation of std::bind, they're using a similar
concept (with the difference that they're building
a functor object, where we use a type converter)
This refactoring also integrates some generally useful
bits into our standard metaprogramming helper collection
not sure yet if any of this works, because the
technicalities of dealing with variadic types are
quite different to our LISP-style typelist processing.
The good news is that with variadic templates it is
indeed possible, to supply dynamically picked arguments
to another function taking arbitrary arguments.
This all relies on the feature to unpack argument packs,
and, more specifically, about the possiblity to "wrap"
this unpacking around interspersed function call syntax
template<size_t...i>
Xyz
do_something(MyTuple myTuple)
{
return Xyz (std::get<i> (myTuple) ... );
}
Here the '...' will be applied to the i... and then
the whole std::get-construct will be wrapped around
each element. Mind bogging, but very powerful
