while simple to add into the implementation, this whole feature
seems rather qestionable to me now, thus I've added a Ticket
to be revisited later.
In a nutshell, right here, when implementing the binding layer
for STL collections, it is easy to enable the framework to treat
Ref::THIS properly, but the *actual implementation* will necessarily
be offloaded onto each and every concrete binding implementation.
Thus client code would have to add support for an rather obscure
shortcut within the Diff language. The only way to avoid this
would be to change the semantics of the "match"-lambda: if this
binding would rather be a back-translation of implementation data
into GenNode::ID values, then we'd be able to implement Ref::THIS
natively. But such an approach looks like a way inferiour deisgn
to me; having delegated the meaning of a "match" to the client
seems like an asset, since it is both natural and opens a lot
of flexibility, without adding complexity.
For that reason I tend to avoid that shortcut now, in the hope
to be able to drop it entirely from the language
after sleeping one night over the problem, this seems to be
the most natural solution, since the possibility of assignment
naturally arises from the fact that, for tree diff, we have
to distinguish between the *identity* of an element node and
its payload (which could be recursive). Thus, IFF the payoad
is an assignable value, why not allow to assign it. Doing so
elegnatly solves the problem with assignment of attributes
Signed-off-by: Ichthyostega <prg@ichthyostega.de>
well... this was quite a piece of work
Added some documentation, but a complete documentation,
preferably to the website, would be desirable, as would
be a more complete test covering the negative corner cases
each language token of our "linearised diff representation"
carries a payload data element, which typically is the piece
of data to be altered (added, mutated, etc).
Basically, these elements have value semantics and are
"sent over wire", and thus it seems natural when the
language interpreter functions accept that piece of payload
by-value. But since we're now sending GenNode elements as
parameter data in our diff, which typically are of the
size of 10 data elements (640 bit on a 64bit machine),
it seems more resonable to pass these argument elements
by const& through the interpreter function. This still
means we can (and will indeed) copy the mutated data
values when applying the diff, but we're able to
relay the data more efficiently to the point where
it's consumed.
so basically it's time to explicate the way
our diff language will actually be written.
Similar to the list diff case, it's a linear sequence
of verb tokens, but in this case, the payload value
in each token is a GenNode. This is the very reason
why GenNode was conceived as value object with an
opaque DataCap payload
