after completing the recent clean-up and refactoring work,
the monad based framework for recursive tree expansion
can be abandoned and retracted.
This approach from functional programming leads to code,
which is ''cool to write'' yet ''hard to understand.''
A second design attempt was based on the pipeline and decorator pattern
and integrates the monadic expansion as a special case, used here to
discover the prerequisites for a render job. This turned out to be
more effective and prolific and became standard for several exploring
and backtracking algorithms in Lumiera.
...this is something I should have done since YEARS, really...
Whenever working with symbolically represented data, tests
typically involve checking *hundreds* of expected results,
and thus it can be really hard to find out where the
failure actually happens; it is better for readability
to have the expected result string immediately in the
test code; now this expected result can be marked
with a user-defined literal, and then on mismatch
the expected and the real value will be printed.
The header "format-cout.hpp" offers a convenience function
to print pretty much any object or data in human readable form.
However, the formatter for pointers used within this framework
switched std::cout into hexadecimal display of numbers and failed
to clean-up this state.
Since the "stickyness" of IOS stream manipulators is generally a problem,
we now provide a RAII helper to capture the previous stream state and
automatically restore it when leaving the scope.
Complete the investigation and turn the solution into a generic
mix-in-template, which can be used in flexible ways to support
this qualifier notation.
Moreover, recapitulate requirements for the ElementBoxWidget
All of the existing "simple" tests for the »Diff Framework« are way to much low-level;
they might indeed be elementary, but not introductory and simple to grasp.
We need a very simplistic example to show off the idea of mutation by diff,
and this simple example can then be used to build further usage test cases.
My actual goal for #1206 to have such a very basic usage demonstration and then
to attach a listener to this setup, and verify it is actually triggered.
PS: the name "GenNodeBasic_test" is somewhat pathetic, this test covers a lot
of ground and is anything but "basic". GenNode in fact became a widely used
fundamental data structure within Lumiera, and -- admittedly -- the existing
implementation might be somewhat simplistic, while the whole concept as such
is demanding, and we should accept that as the state of affairs
...these magical strings are already spreading dangerously throughout the code base
PS: also fixup for c6b8811af0 (broken whitespace in test definition)
The boost::hash documentation does not mention a significant change in that area,
yet the frequent collisions on identifiers with number suffix do not occur anymore
in Boost 1.65
all these tests are ported by drop-in replacement
and should work afterwards exactly as before (and they do indeed)
A minor twist was spotted though (nice to have more unit tests indeed!):
Sometimes we want to pass a custom constructor *not* as modern-style lambda,
but rather as direct function reference, function pointer or even member
function pointer. However, we can not store those types into the closure
for later lazy invocation. This is basically the same twist I run into
yesterday, when modernising the thread-wrapper. And the solution is
similar. Our traits class _Fun<FUN> has a new typedef Functor
with a suitable functor type to be instantiated and copied. In case of
the Lambda this is the (anonymous) lamda class itself, but in case of
a function reference or pointer it is a std::function.
...written as byproduct from the reimplementation draft.
NOTE there is a quite similar test from 2013, DependencyFactory_test
For now I prefer to retain both, since the old one should just continue
to work with minor API adjustments (and thus prove this rewrite is a
drop-in replacement).
On the long run those two tests could be merged eventually...
this was a spin-off activity from writing the SessionCommand
function(integration) test, where I noted that we can't just
capture "a time value" as command memento
without that check, in theory our test runner will tolerate
a non-zero return value, like throwing or failing an assert,
which is not what we want....
guess these happenend to get in by forgetting to
add this check when switching a test from PLANNED to TEST
due to the new automatic string conversion in operator<<
the representation of objects has changed occasionally.
I've investigated and verified all those incidents.
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
...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
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 in debugging, it turned out that the short type-prefix
was implemented in a too simplistic way; it fails on stuff
like 'lib::diff::Record<lib::diff::GenNode>'
while I must add, that the whole purpose of these ID functions
is somewhat unclear and needs to reveal itself as we move forward
basically the 32/64bit problem was caused by things like 23L, which creates a long.
Unfortunately on 64bit platforms, this is aliased to int64_t,
while on 32bit i386, it is a distinct data type, but just 32bit,
like int.
The code in question here is just test / demonstration code
and actually just needs "some integer number". So let's stick
to good old boring int then.
initially, the intention was to inject the type as a magic attribute.
But this turned out to make the implementation brittle, asymmetric
and either quite demanding, or inefficient.
The only sane approach would be to introduce a third collection,
the metadata attributes. Then it would be possible to handle these
automatically, but expose them through the iterator.
In the end I decided against it, just the type attribute
allone does not justify that effort. So now the type is an
special magic field and kept apart from any object data.
Ouch!
Why does C++ lack the most basic everyday stuff?
It needn't be performant. It needn't support some fancy
higher order container. Just join the f***ing strings.
use Bosst?? -- OMG!! pulls in half the metra programming library
and tries to work on any concievable range like object. Just
somehow our Lumiera Forward Iterators aren't "range-like" enough
for boost's taste.
Thus let's code up that fucking for-loop ourselves, once and forever.
Note: the new Variant implementation is a re-write from scratch
and does not rely on util::AccessCasted any more. Anyway, both
are now thoroughly covered by unit test
