This one is more complex than the Beats or superclock variants, because
we cannot just start from the front of the map. Instead, we have to
first iterate through the map so that we start the code in
_get_tempo_and_meter<...> from the TempoPoint and MeterPoint
in effect at the BBT_Argument's reference time.
Track::use_captured_midi_sources is called from use_captured_sources().
which is only called from DiskWriter::transport_stopped_wallclock(),
which is only called from Session::non_realtime_stop().
This solves several issues related to splitting or pasting regions, when
there is more than one layer.
Rather than assign a new group-id for "all the regions on the right of a
split", only ions that had a *prior* group-relationship should be
propagated into the new group.
Signed-off-by: Robin Gareus <robin@gareus.org>
LLVM libc++ does not have the ext/atomicity.h header. This fix is copied
from the upstream vst3_pluginterfaces repo.
Signed-off-by: Violet Purcell <vimproved@inventati.org>
The alias was only used when it was exposed in lua. It was without any
indication that it was a deprecated alias, but let's just bite the
bullet and get rid of it.
A group of functionality was only used once, in
TempoPoint::quarters_at_superclock . Keep things simple and enable
further refactoring and cleanup by inlining everything and dropping
superbeat, big_numerator and super_note_type_per_second from Tempo.
The use of big_numerator right next to superclock_ticks_per_second
seems error prone. It should perhaps just be refactored to work in
superclock domain all the time.
It seems weird that the ramped case is much simpler than the non-ramped.
This (pretty much) removes the last references to "superbeat", which
I thus doesn't have to understand ;-)
The note_type_as_beats was the only temporal thing using hardcoded value
of 1920. It seems like it just should use the usual Ardour PPQN (aka
ticks_per_beat) ... which also has the value 1920.
It is however not used after d77db816de.
There is no need for scts_set now. "Early" use of SCTS will just give the
value 0. DEBUG_EARLY_SCTS_USE can thus just check that
_superclock_ticks_per_second doesn't have the initial value of 0.
If DEBUG_EARLY_SCTS_USE somehow was set, compilation would fail because
of includes inside a namespace.
(Even without DEBUG_EARLY_SCTS_USE, any early use of superclock will
probably fail clearly with division by zero. There is thus not much need
for DEBUG_EARLY_SCTS_USE now.)
Make sure all code paths that use Temporal will initialize and reset it
properly. Some code paths (in tet runners) doesn't use Sessions, so
Temporal::reset() has to be invoked directly.
Just set the static superclock variable to 0 as initial value.
TempoMap will still be initialized early as a singleton, but we
introduce a new constructor so it is created empty (and thus not really
usable until Temporal::reset() or similar has populated it).
We can thus drop the static initialization of superclock. The default
superclock rate of 282240000 will now only live in Temporal::reset().
With this change there should no longer be any uninitialized use of
superclock_ticks_per_second(), and there should not be any problems for
DEBUG_EARLY_SCTS_USE to catch. (It is however broken in other ways -
that will be fixed next.)
The superclock rate is variable and is stored in session files since
7.0 . It is set globally when reading from a session file, and it really
should be reset to a known state whenever a new blank session is
created from an existing one. Currently, that doesn't happen. We fix
that by resetting it in Temporal::reset().
For now, we are duplicating the default superclock rate 282240000 from
superclock.h , but we can drop that when all code paths that use
superclock also use Temporal::reset().
This will provide an (extra) guarantee that
set_superclock_ticks_per_second() always is invoked before creating
TempoMap or using superclock_ticks_per_second() in other ways. The
DEBUG_EARLY_SCTS_USE in superclock.h is thus closer to passing.
Ardour uses some global variables and singletons. These global variables
can be initialized with a value prior to program execution (especially
if they are const), but some of the static variables are modified, and
it is crucial that they always are reset when switching to another
session. To keep things simple and explicit and consistent, we thus
introduce Temporal::reset() to reset TempoMap (and later on also the
superclock rate). This is somewhat similar to Temporal::init(), which
usually only is invoked once (on program start) to initialize singletons
(such as the TempoMap).
9964f20c added TempoMap initialization to Session::create() ... but only
when not using a template. This create method is mainly preparing the
filesystem for a new session, and TempoMap initialization doesn't seem
like a perfect fit for it. It also seemed odd that it only initialized
TempoMap for clean new sessions, while existing sessions and templates
initialized it elsewhere.
Instead, invoke the TempoMap initialization early in the Session
creation process. This might introduce an extra and unnecessary TempoMap
initialization when loading an existing session or using a template, but
that will be cheap and do no harm, while providing a guarantee that we
always use the same default value.
cb78043adc "Indicate selection extents in time ruler" introduced use of
superclock before it has been set. But as it only is used at time 0, the
actual superclock doesn't matter. Still, we work around it in order to
avoid triggering any warnings of uninitialized use.