...which can be helpful when a function usually returns a somewhat dressed-up iterator,
but needs to return a specific fixed value under some circumstances
- fix some warnings due to uninitialised members
(no real problem, since these members get assigned anyway)
- use a lambda as example function right in the test
- use move initialisation and the new util::join
this fixes a silly mistake:
obviously we want named sub-nodes, aka. "Attributes",
but we used the anonymous sub-nodes instead, aka. "Children"
Incidentally, this renders the definitions also way more readable;
in fact the strange post-fix naming notation of the original version
was a clear indication of using the system backwards....
obviously, we get a trivial case, when the path is explicit,
and we need a tricky full blown resolution with backtracking
when forced to interpolate wildcards to cover a given UICoord
spec against the actual UI topology.
Do we need it?
* actually not right now
* but already a complete implementation of the ViewSpec concept
requires such a resolution
...to limit them to the UI-Coordinates themselves,
while declining the possibility to mutate the target environment
through the PathResolver. Better handle changes within the
target environment by dedicated API calls on the target elements,
instead of creating some kind of "universal structure"
It is not possible to inherit through boost operators
and defining them explicitly is not that much fuss either.
Plus we avoid the boost include on widely used header
the usual drill...
once there is one additional non explicit conversion ctor,
lots of preferred conversion paths are opened under various conditions.
The only remedy is to define all ctors explicitly, instead of letting the
compiler infer them (from the imported base class ctors). Because this way
we're able to indicate a yet-more-preferred initialisation path and thus
prevent the compiler from going the conversion route.
In the actual case, the coordinate Builder is the culprit; obviously
we need smooth implicit conversion from builder expressions, and obviously
we also want to restrict Builder's ctors to be used from UICoord solely.
Unfortunately this misleads the compiler to do implement a simple copy construction
from non const reference by going through the prohibited Builder ctor, or to
instantiate the vararg-ctor inherited from PathArray.
Thus better be explicit and noisy...
After completing the self-contained UICoord data elements,
the next thing to consider might be how to resolve UI coordinates
against an actual window topology. We need to define a suitable
command-and-query interface in order to build and verify this
intricate resolution process separated from the actual UI code.
Explicitly assuming that those functions are called solely from IterAdapter
and that they are implemented in a typical standard style, we're able to elide
two redundant calls to the checkPoint() function. Since checkPoint typically performs
some non-trivial checks, this has the potential of a significant performance improvement
- we check (and throw ITER_EXHAUST) anyway from operator++, so we know that pos is valid
- the iterate() function ensures checkPoint is invoked right after iterNext,
and thus the typical standard implementation of iterNext need not do the same
...under the assumption that the content is normalised,
which means
- leading NULL is changed to Symbol::EMPTY
- missing elements in the middle are marked as "*"
- trailing NULL in extension storage is handled by adjusting nominal extension size
as it turned out, the solution from yesterday works only with uniform argument lists,
but not with arbitrarily mixed types. Moreover the whole trickery with the
indices was shitty -- better use a predicate decision on template argument level.
This simple solution somehow just didn't occur to me...
exploring the idea of a configuration DSL.
As a first step, this could be a simple internal DSL,
implemented as a bunch of static functor objects, which are internally bound
and thus implemented by the ViewLocator within InteractionDirector
...still with lots of diagnostic messages,
and need to fine tune the balance between generator and consumer,
in order to produce more interesting patterns.
Also need to verfiy the results automatically
Problems while building the test fixture: several, most notably again
the dangers when combining lambdas and multithreading. The most glorious
mistake was to capture the notifyGUI function, which led to locking
a corrupted uiDispatcher queue, causing deadlock.
Problems in the actual test subject: seemingly none.
Message passing and diff application works like a charm!
basically DiffMessage has a "take everything" ctor, which happens
to match on type DiffMessage itslef, since the latter is obviously
a Lumiera Forward Operator. Unfortunately the compiler now considers
this "take everyting" ctor as copy constructor. Worse even, such a
template generated ctor qualifies as "best match".
The result was, when just returing a DiffMessage by value form a
function, this erroneous "copy" operation was invoked, thus wrapping
the existing implementation into a WrappedLumieraIterator.
The only tangible symptom of this unwanted storage bloat was the fact
that our already materialised diagnostics where seemingly "gone". Indee
they weren't gone for real, just covered up under yet another layer of
DiffMessage wrapping another Lumiera Forward Iterator
actually I do not know much regarding the actual situation when,
within the Builder run, we're able to detect a change and generate
a diff description. However, as a first step, I'll pick IterSrouce
as a base interface and use a "generation context", which is to be
passed by shared-ptr
the (trivial) implementation turned out to be correct as written,
but it was (again) damn challenging to get the mulithreaded chaotic
test fixture and especially the lambda captures to work correct.
again surprising how such fundamental bugs can hide for years...
Here the reason is that IterAdapter leaves the representation of "NIL" to
its instantiation / users; some users (here in for example the ScopedCollection)
can choose to allow for different representations of "NIL", but the comparison
provided by IterAdapter just compares the embedded pos by face value.
...while tests in the library subdirectory are linked only against
liblumierasupport, which does not provide the multithreading support
In this special case here the actual facility to be tested does not rely
on thread support, only on locking. But the stress test obviously needs
to create several threads. Simple workaround is to move the test into
a test collection linked against all of the application core...
for the simplistic implementation we're using right now this effort might look
exaggerated, but we should consider using a lock-free implementation at some
point in the future, at which point it is good to have a stress test in place
- concept for a first preliminary implementation of dispatch into the UI thread
- define an integration effort to build a complete working communication chain
after extended analysis, it turned out to be a "placeholder concept"
and introduces an indirection, which can be removed altogether
- simple command invocation happens at gui::model::Tangible
- it is based on the command (definition) ID
- instance management happens automatically and transparently
- the extended case of context-bound commands will be treated later,
and is entirely self-contained
while the initial design treated the commands in a strictly top-down manner,
where the ID is known solely to the CommandRegistry, this change and information
duplication became necessary now, since by default we now always enqueue and
dispatch anonymous clone copies from the original command definition (prototype).
This implementation uses the trick to tag this command-ID when a command-hanlde
is activated, which is also the moment when it is tracked in the registry.
due to the refactorings, the instance was moved out prior to checking for
bound arguments. This is ammended now, albeit at the price of passing an
additional flagn and some tricky boolean conditions
in accordance to the design changes concluded yesterday.
- in the standard cases we now check the global registry first
- automatically create anonymous clone copy from global commands
- reorganise code internally to use common tail implementation
as it turns out, we can always trigger commands right away,
the moment all arguments are known. Thus it is sufficient to
send a single argument binding message, which allows us to
get rid of a lot or ugly complexities (payload visitor).
It seems more adequate to push the somewhat intricate mechanics
for the "fall back" onto generic commands down into the implementation
level of CommandInstanceManager. The point is, we know the standard
usage situation is to rely on the instance manager, and thus we want
to avoid redundant table lookups, only to support the rare case of
fallback to global commands. The latter is currently used only from
unit-tests, but might in future also be used by scripts.
Due to thread safety considerations, I have refrained from handing
out a direct reference to the command token sitting in the registry,
even while not doing so incurs a small runtime penalty (accessing
the shared ref-count for creating a copy of the smart-handle).
This is the typical situation where you'd be tempted to sacrifice
sanity for the sake of an imaginary performance benefit, which
in fact is dwarfed by all the machinery of UI-Bus and argument
passing via GenNode.
Up to now, we tolerated null pointers in Literal instances.
But we can not tolerate passing a null cString to Symbol initialisation.
Rather, hereby we introduce a dedicated "bottom" Symbol, a valid "null object"
...which means, from now on identical input strings
will produce the same Symbol object (embedded pointer).
TODO: does not handle null pointers passed in as c-String properly
