...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....?
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
now we use boost::format through our own front-end util::_Fmt
solely, which both helps to reduce compilation time and code size,
and gives us a direct string conversion, which automatically
uses any custom operator string() available on arguments.
While desirable as such, I did this conversion now, since
it allows us to get rid of boost::str, which in turn helps
to drill down any remaning uses of our own util::str
Note: not fixing all relevant warnings.
Especially, the "-Woverloaded-virtual" of Clang defeats the whole purpose
of generated generic interfaces. For example, our Variant type is instantiated
with a list of types the variant can hold. Through metaprogramming, this
instantiation generates also an embedded Visitor interface, which has
virtual 'handle(TY)' functions for all the types in question
The client now may implement, or even partially implement this Visitor,
to retrieve specific data out of given Variant instance with unknown conent.
To complain that some other virtual overload is now shaddowed is besides the point,
so we might consider to disable this warning altogether
the object VTable is typically emitted when the compiler
encounters the first non-static non-inline function of
the class or a derived class.
Sometimes this happens within the wrong library and so
the compiler needs a nudge to emit those infrastructure functions.
But in most cases this works out of the box and need no further
magic incanctations, which might have a downside.
Especially because also a non-inline dtor does incur a call overhead,
whereas an inline dtor can be trivially elided.
this was introduced into namespace mobject and spread from there.
Since the habit is to use more specific typedefs like PClip,
it is preferrable to spell out the full namespace
