so this turned out to be rather expensive,
while actually not difficult to implement.
On the way, I've learned
- how to build a backtracking matcher, based on
a filtering (monadic) structure and chained lambdas
- learned the hard way how (not) to return a container
by move-reference
- made first contact with the regular expressions
now available from the standard library
abandon the use of an assertion exception to signal match failure,
rather use a final bool conversion to retrieve the results.
Error messages are now delivered by side effect into STDERR
The reason is we're unable to deliver the desisred behaviour
with the chosen DSL syntax in C++ ; on a second thought the
new approach is even better aligned with the overall way
we're writing tests in Lumiera. And we produce match-trace
messages to indicate the complete matching path now
...no need to enclose empty sections when there are no
attributes or no children. Makes test code way more readable.
TestEventLog_test PASS as far as implemented
after looking into our various iterator tools,
it seems obvious that our filtering iterator implementation
has almost all of the required behaviour; we only need to
add a hook to rewrite and extend the filtering functor,
which can now nicely done with a lambda closure.
This means all memory management, if necessary, is
pushed into std::function and the automated memory
management for closures provided by the runtime.
some tests rely on additional diagnostics code being linked in,
which happens, when lib/format-util.hpp is included prior to
the instantiation of lib::diff::Record rsp. lib::Variant.
The reason why i opended this can of worms was to avoid includion
of this formatting and diagnostics code into such basic headers
as lib/variant.hpp or lib/diff/gen-node.hpp
Now it turns out, that on some platforms the linker will use
a later instantiation of lib::Variant::Buff<GenNode>::operator string
in spite of a complete instantiation of this virtual function
being available already in liblumierasupport.so
But the real reason is that -- with this trickery -- we're violating
the single definition rule, so we get what we deserved.
TODO (Ticket #973): at a later point in development we have to re-assess,
the precise impact of including lib/format-util.hpp into
lib/diff/gen-node.hpp
Right now I expect GenNode to be used pervasively, so I am
reluctant to make that header too heavyweight.
yet another instance of that obnoxious problem that "long"
is just 32bit on i386 platforms. Why the hell does such
a broken type get the preference of convenient notation??
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
while implementing this, I've discovered a conceptual error:
we allow to accept attributes, even when we've already entered
the child scope. This means that we can not predictable get back
at the "last" (i.e. the currently touched) element, because this
might be such an attribute. So a really correct implementation
would have to memorise the "current" element, which is really
tricky, given the various ways of touching elements in our
diff language.
In the end I've decided to ignore this problem (maybe a better
solution would have been to disallow those "late" attributes?)
My reasoning is that attributes are unlikely to be full records,
rather just values, and values are never mutated. (but note
that it is definitively possible to have an record as attribute!)
...while I must admit that I'm a bit doubtful about that
language feature, but it does come in handy when manually
writing diff messages. The reason is the automatic naming
of child objects, which makes it often hard to refer to
a child after the fact, since the name can not be
reconstructed systematically.
Obviously the downside of this "anonymous pick / delete"
is that we allow to pick (accept) or even delete just
any child, which happens to sit there, without being
able to detect a synchronisation mismatch between
sender and receiver.
...so now the stage is set. We can reimplement
the handling of the list diff cases here in the context
of tree diff application. The additional twist of course
being the distinction between attribute and child scope
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
while it's still not really clear how we'll use this helper
and if we need it at all -- some weeks ago I changed its
semantics to be strictly based on the delta to a reference level.
Now this means, we could go below level zero, but this doesn't
make any sense in the context of navigating a tree. Actually,
our test case triggered this situation, which caused the
reference level to wrap around, since it is stored in an
unsigned variable.
Thus I'll add a precondition to keep the level positive,
and I'll change the test to comply.
initially the intention was to include a "bracketing construct"
into the values returned by the iterator. After considering
the various implementation and representation approaches,
it seems more appropriate just to expose a measure for the
depth-in-tree through the iterator itself, leaving any concerns
about navigation and structure reconstruction to the usage site.
As rationale we consider the full tree reconstruction as a very
specialised use case, and as such the normal "just iteration" usage
should not pay for this in terms of iterator size and implementation
complexity. Once a "level" measure is exposed, the usage site
can do precisely the same, with the help of the
HierarchyOrientationIndicator.
