A very performance relevant shortcoming of the existing implementation
of partial function closure is that the result is always wrapped into a
std::function, which typically causes a heap allocation when more than
a single pre-bound argument must be stored — which is annoying,
since the underlying Binder provides inline storage and thus
could be handled directly as a value object.
However, returning the Binder directly is also problematic, since
this object is outfitted with several overloaded function call operators,
which defeats most techniques to detect a function signature. Notably,
relevant down-stream metaprogramming code, like the tuple-closure used
in the `NodeBuilder` would break when being confronted directly with
a binder object.
An investigation shows that there is no direct remedy, short of
wrapping the binder into another functor. This can be accomplished
with a helper template, that generates a wrapper; however, this
wrapper builder must be supplied with explicit type information
regarding the function arguments (precisely because this type
signature can not be picked up from the Binder object itself)
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