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
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.
The instance manager opens (creates) a new instance by cloning
from the prototype. Unless this instance is dispatched, it does not
allow to open a further instance (for the same instanceID). But of course
it allows to open a different instance from the same prototype
This changeset fixes a huge pile of problems, as indicated in the
error log of the Doxygen run after merging all the recent Doxygen improvements
unfortunately, auto-linking does still not work at various places.
There is no clear indication what might be the problem.
Possibly the rather unstable Sqlite support in this Doxygen version
is the cause. Anyway, needs to be investigated further.
this is indeed a change of concept.
A 'command instance' can not be found through the official
Command front-end anymore, since we do not create a registration.
This allows us to avoid decorating command IDs with running counters
Up to now, these dummy functions where used by various unit tests
directly, by creating command definitions within the test fixture.
But since it is foreseeable that we'll need dummy commands for various
further unit tests, it seems adequate to setup a global static registration
with the newly created system of command registrations for these dummies.
this is a prerequisite for command instance management:
We have now an (almost) complete framework for writing actual
command definitions in practice, which will be registered automatically.
This could be complemented (future work) by a script in the build process
to regenerate proc/cmd.hpp based on the IDs of those automatic definitions.
as it stands, this does not work, since lambdas are passed by-value,
while function references can only be passed by explicit reference,
otherwise they'll degrade to a function pointer. And std::function
requires a plain function signature as type argument, not the type
of a function pointer (which doesn't mean you can't construct a
std::function from a FP, indeed there is an explicit overload for
that).
The point in question is how to manage these definitions in practice,
since we're about to create a huge lot of them eventually. The solution
attempted here is heavily inspired by the boost-test framework
this bit of Sed magic relies on the fact that we happen to write
the almost correct class name of a test into the header comment.
HOWTO:
for F in $(find tests -type f \( -name '*.cpp' \) -exec egrep -q '§§TODO§§' {} \; -print);
do sed -r -i -e'
2 {h;x;s/\s+(.+)\(Test\).*$/\\ref \1_test/;x};
/§§TODO§§/ {s/§§TODO§§//;G;s/\n//}'
$F;
done
Doxygen will only process files with a @file documentation comment.
Up to now, none of our test code has such a comment, preventing the
cross-links to unit tests from working.
This is unfortunate, since unit tests, and even the code comments there,
can be considered as the most useful form of technical documentation.
Thus I'll start an initiative to fill in those missing comments automatically
Writing and debugging such tests is always an interesting challenge...
Fortunately this exercise didn't unveil any problem in the newly written
code, only some insidious problems in the test fixture itself. Which
again highlights the necessity, that each *command instance* needs
to be an independent clone from the original *command prototype*,
since argument binding messages and trigger messages can appear
in arbitrary order.
the intention is to cover more of the full invocation path,
without running all of the application infrastructure. So this
second test cases simulates how messages are handled in CoreService,
where the CommandHandler (visitor) actually invokes the SessionCommand
facade
command processing against the session is not yet implemented,
so to allow for unit testing, we magically recognise all commands
starting with "test." and invoke them directly within the Dispatcher.
With this addition, the basic functionality of the dispatcher works now
need also to start and stop the interface registry,
since by policy we do not run the application framework itself
for execution of the test suite; thus if some test actually needs
an application service, it must be started/stopped manually
...since the session loop will be notified on any change via the
interface, adding a command will activate the loop, and the builder
timeout is handled separately via the dirty state. So there is no
need to spin around the loop in idle state.
As a aside, timeout waiting on a condition variable can be intentional
and should thus not be logged as an error automatically. It is up to the
calling context to decide if a timeout constitutes an exceptional situation.
It is always a trade-off performance vs. readability.
Sometimes a single-threaded implementation of self-contained logic
is preferable to a slightly more performant yet obscure implementation
based on our threadpool and scheduler.
...this means to turn Looper into a state machine.
Yet it seems more feasible, since the DispatcherLoop has a nice
checkpoint after each iteration through the while loop, and we'd
keep that whole builder-dirty business completely confined within
the Looper (with a little help of the DispatcherLoop)
Let's see if the state transition logic can actually be implemented
based just on such a checkpoint....?
reason is, only files with a @file comment will be processed
with further documentation commands. For this reason, our Doxygen
documentation is lacking a lot of entries.
HOWTO:
find src -type f \( -name '*.cpp' -or -name '*.hpp' \) -not -exec egrep -q '\*.+@file' {} \; -print -exec sed -i -r -e'\_\*/_,$ { 1,+0 a\
\
\
/** @file §§§\
** TODO §§§\
*/
}' {} \;
While in general it is fine to clean-up any entity IDs
to be US-ASCII alphanumerics (plus some allowed interpunction),
the GenNodes and also keys in object-bindings for diff are
considerd internal interfaces, assuming that any passed
ID symbol is already sanitised and checked. So the
sanitise operation can be skipped. This changeset
adds the same option directly to lib::EntryID,
allowing to create an EntryID that matches
a similar GenNode's (hash) ID.
the functionality as such is already covered,
but it seems important enough to warrant a dedicated test.
incidentally, Duration still lacked a default ctor.
Time values are default constructible, yet immutable.
Completely removed the nested hierarchy, where
the top-level implementation forwarded to yet another
sub-implementation of the same interface. Rather, this
sub-implementation (OpClosure) is now a mere implementation
detail class without VTable, and without half-baked
re-implementation of the CmdClosure interface. And the
state-switch from unbound to bound arguments is now
implemented as a plain-flat boolean flag, instead of
hiding it in the VTable.
To make this possible, without having to rewrite lots of
tests, I've created a clone of StorageHolder as a
"proof-of-concept" dummy implementation, for the sole
purpose of writing test fixtures. This one behaves
similar to the real-world thing, but cares only
for closing the command operation and omits all
the gory details of memento capturing and undo.
Seems this was part of the confusion when looking at
the inheritance graph: Names where almost reversed
to the meaning. the ArgumentHolder was *not* the
argument holder, but the top level closure. And
the class "Closure" was not "the" Closure, but
just the argument holder. ;-)
this was a classical example of a muddled and messed-up design,
driven just by the fact that I wanted to "spare" some functions,
with the net effect of writing more functions, plus a proxy class
plus create a lot of confusion for the reader.
This was easy to resolve though, once I resorted to the
general adivice to make public interface methods final,
make the extension ponts protected and never
to chain two extension points
First part is to define the steps (the protocol) at the
model element level, which gets a command prepared and invoked.
Test fails still, because there is no actual argument binding
invoked in the TestNexus
we deleted an object on the heap,
and afterwards re-accessed the memory through the
dangling pointer to verify the deletion actually happened.
This works most of the time, unless the memory manager decides
to map that page differently -- in which case we just hit
random memory contents.
A better idea is thus to place this TestFrame object
into a statically allocated buffer and invoke the dtor
explicitly. This allows us to conduct the test reliably.
- remove unnecessary includes
- expunge all remaining usages of boost::format
- able to leave out the expliti string(elm) in output
- drop various operator<<, since we're now picking up
custom string conversions automatically
- delete diagnostics headers, which are now largely superfluous
- use newer helper functions occasionally
I didn't blindly change any usage of <iostream> though;
sometimes, just using the output streams right away
seems adequate.
...and learned a lot about the new type_traits on the way.
As it seems, it is not possible to get a clean error message
when passing an "object" with no custom string conversion;
instead, some overload for an rvalue-ostream kicks in.
probably I'll go for shoing a type string in these cases
