In the Lumiera code base, we use C-String constants as unique error-IDs.
Basically this allows to create new unique error IDs anywhere in the code.
However, definition of such IDs in arbitrary namespaces tends to create
slight confusion and ambiguities, while maintaining the proper use statements
requires some manual work.
Thus I introduce a new **standard scheme**
* Error-IDs for widespread use shall be defined _exclusively_ into `namespace lumiera::error`
* The shorthand-Macro `LERR_()` can now be used to simplify inclusion and referral
* (for local or single-usage errors, a local or even hidden definition is OK)
Introduced as remedy for a long standing sloppiness:
Using a `char[]` together with `reinterpret_cast` in storage management helpers
bears danger of placing objects with wrong alignment; moreover, there are increasing
risks that modern code optimisers miss the ''backdoor access'' and might apply too
aggressive rewritings.
With C++17, there is a standard conformant way to express such a usage scheme.
* `lib::UninitialisedStorage` can now be used in a situation (e.g. as in `ExtentFamily`)
where a complete block of storage is allocated once and then subsequently used
to plant objects one by one
* moreover, I went over the code base and adapted the most relevant usages of
''placement-new into buffer'' to also include the `std::launder()` marker
...oh my.
This is getting messy. I am way into danger territory now....
I've made a nifty cool design with automatically adapted functors;
yet at the end of the day, this does not bode well with a DSL usage,
where objects appear to be simple values from a users point of view.
- move construct into the buffer
- directly invoke the payload constructor through PlantingHandle
- reconsider type signature and size constraint
- extend the unit test
- document a corner case of c++ "perfect forwarding",
which caused me some grief here
...this extension was spurred by the previeous refactoring.
Since 'emplace' now clearly denotes an operation to move-embed an existing object,
we could as well offer a separate 'create' API, which would take forwarding
arguments as usual and just delegates to the placement-new operation 'create'
already available in the InPlaceBuffer class.
Such would be a convenience shortcut and is not strictly necessary,
since move-construction is typically optimised away; yet it would also
allow to support strictly non-copyable payload types.
This refactoring also highlights a fuzziness in the existing design,
where we just passed the interface type, while being sloppy about the
DEFAULT type. In fact this *is* relevant, since any kind of construction
might fail, necessitating to default-construct a placeholder, since
InPlaceBuffer was intended for zero-overhead usage and thus has in itself
no means to know about the state of its buffer's contents. Thus the
only sane contract is that there is always a valid object emplaced
into the buffer, which in turn forces us to provide a loophole for
class hierarchies with an abstract base class -- in such a case the
user has to provide a fallback type explicitly.
...for the operation on a PlantingHandle, which allows
to implant a sub type instance into the opaque buffer.
* "create" should be used for a constructor invocation
* "emplace" takes an existing object and move-constructs
...in an attempt to clarify why numerous cross links are not generated.
In the end, this attempt was not very successful, yet I could find some breadcrumbs...
- file comments generally seem to have a problem with auto link generation;
only fully qualified names seem to work reliably
- cross links to entities within a namespace do not work,
if the corresponding namespace is not documented in Doxygen
- documentation for entities within anonymous namespaces
must be explicitly enabled. Of course this makes only sense
for detailed documentation (but we do generate detailed
documentation here, including implementation notes)
- and the notorious problem: each file needs a valid @file comment
- the hierarchy of Markdown headings must be consistent within each
documentation section. This entails also to individual documented
entities. Basically, there must be a level-one heading (prefix "#"),
otherwise all headings will just disappear...
- sometimes the doc/devel/doxygen-warnings.txt gives further clues
...which leads to a specific twist here; while in the simple version
we still could hope to get away with a simple uniform uint argument,
the situation has changed altogether now. The canvas has turned into
some generic component, since it is instantiated two times, onece for
the time ruler and once for the actual body content. Thus all of the
specifics of the drawing code need to be pushed into a new, dedicated
renderer component. And this more or less forces us to pass all the
actual presentation variations through the invocation arguments of
the visitor.
So we're now off again for a digression, we need a more generalised visitor
Problem is, the InteractionDirector, being the representation of the model root,
needs to manage and maintain the collection of "timelines". However, these
can not be widgets, rather, they need to attach to widgets living within
the GUI widget structure proper, i.e. within the TimelinePanel
proposed solution is to build a smart handle based on WLink,
but also delegating the DiffMutable interface
obsoleted by C++11
* in most cases, it can be replaced by an explicit conversion operator
* especially for the Lumiera Forward Iterators, we need an implicit conversion
Up to now, InPlaceBuffer used to default construct an instance of the
Interface class, and then you'd need to invoke the `create()` function
to actually create the desired subclass. This is not only inefficient,
but rules out the use of abstract interfaces / base classes.
Unfortunately, there is no way in C++ to specify an explicit template argument list
on ctor calls, so we resort to the trick of passing an additional dummy marker argument
basically we'll establish a collaboration where both sides
know only the interface (contract) of the partner; a safe margin
for allocation size has to be established through metaprogramming (TODO)
All relevant uses will rely on the more strict access policy
implemented with the new util::AccessCasted. Along the same line
of thinking, I've removed the "second try" convenience conversion
from the typed get-Function of OpaqueHolder. Such an unbounded
"convert it somehow" approach is almost never a good idea. Either,
one knows by design the precise type to expect, or alternatively
should rely on the base interface solely.
...with the sole exception of the usage in WrapperPointer,
which in itself looks obsolete to me; we should better re-think
the way we handle "wrapped" objects for the BuilderTools, once
we actually start implementing the Builder
Ticket #450
Conversion means automatic conversion. In our case,
what we need ist the ability to *construct* a bool from
our (function) object -- while functors aren't automatically
convertible to bool. Thus we use one of the new predicates
from <type_traits>
- upgrade the configuration to a current version
- provide a frontpage with cross-links to other documentation
- define a set of modules; relevant classes and files can be
added to these, to create a exploration path for new readers
- fix a lot of errors in documentation comments
- use a custom configuration for the documentation pages
- tweak the navigation, the sections and further arrangements
Compilation with Clang 3.0 (which is available in Debian/stable) fails,
mostly due to some scoping and naming inconsistencies which weren't detected
by GCC. At some instances, Clang seems to have problems to figure out a
perfectly valid type definition; these can be resolved by more explicit
typing (which is preferrable anyway)
