Age | Commit message (Collapse) | Author |
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Now whenever a setting value/preferred input is derived from a
setting, it'll want to get the raw value to preserve any prefix.
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The filter bypass was kind of a hack and resulted in unfiltered
module lists in rkt_scener edits.
Now that there's an explicit syntax for bypassing checks, the
user can just do that to access what's filtered. So get back to
appropriately consistent filtered results.
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Playing with libs/sig in 2D, this isn't really an interesting
module by itself in terms of visual output. But it might have
utility as a diagnostic thing if libs/sig becomes a more used
thing.
At the very least, for now, it's useful for observing affects of
and iterating on libs/sig development. So I'm merging this, just
gated behind TIL_MODULE_EXPERIMENTAL so it's not in rtv rotation
or presented as something in the usual modules list.
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This restores the original til_fragmenter_slice_per_cpu() while
adding an explicit x16 variant for what
til_fragmenter_slice_per_cpu() had become.
The impetus for this is realizing the x16 multiplier is terrible
for sparkler's crappy threading, and it really need strictly
n_cpus slices for the threading to be beneficial.
So I'm just getting rid of the hidden x16 in favor of making it
explicit in an _x16 variant.
Subsequent commit will pivot all the non-sparkler callers to
til_fragmenter_slice_per_cpu_x16().
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Since "ref" renders using arbitrary foreign contexts, it must
explicitly limit their rendering concurrency to its own.
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With the introduction of discoverable on-stream contexts, with
the intention of modules finding them at runtime for nested
rendering, relying exclusively on limiting n_cpus @
til_module_create_context() is no longer adequate.
When the nested rendering makes use of a context created
elsewhere, it can't make any assumptions about what its n_cpus
is, nor should it be attempting to change that value for its use.
So this variant just adds a max_cpus parameter for setting an
upper bound to whatever is found in the context's n_cpus.
The impetus for this is to fix the ref builtin, which you can
currently trick into deadlock by performing a nested threaded
render within a threaded render. What the ref module should be
doing is propagating its own context's n_cpus down as the upper
bound, via this new render variant.
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When profiling compositions it's convenient to suppress some
modules in the settings to see how their omission affects the
FPS.
There's already a "blank" builtin which clears the fragment, but
there's no way to turn the cost to ~zero. This "noop" builtin
does just that, absolutely nothing - it won't even trigger the
implicit "til_fb_fragment_t.cleared = 1" update so whatever
rendering follows will still find an uncleared fragment if that's
what came into the noop.
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This moves the core til_module_setup() functionality out into a
more composable helper with an eye towards all meta-modules using
it for doing their module setup instead of all the ad-hoc stuff
occurring presently.
Since til_module_setup_full() needs more paramaters to influence
its behavior, it's not directly usable as a "setup_func". But is
trivially wrapped into one, which is what til_module_setup() has
now become.
It's in the wrapper that users are expected to do specify what's
necessary for influencing til_module_setup_full() to do what's
appropriate for their needs.
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just quick and nasty hacking to make win32 build again
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This stows the duration (in ticks (which are ms for now)) of a
given module context's most recent, as well as tracking the max,
in til_module_context_t.
For now it's also added to --print-module-contexts output, but
this is still rather primitive and nearly inscrutible in
practice... that output is a flickery and unsorted mess during
playback. But this is just a start.
Ticks may need to move up to microseconds if it'll also be the
units for measuring timings. Right now things are slow enough
that the low-hanging fruit stand out as multiple if not dozens of
milliseconds so it's still useful for now.
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Thin wrapper around gettimeofday(), prolly change the main ticks
stuff over to this too.
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It was too coarse a condition filtering the list on !name.
This change actually looks up non-NULL names to verify it's a
resolvable module name before producing the unfiltered list.
Mostly just to prevent fat-fingered manual module inputs from
resulting in unexpectedly larger and potentially dangerous module
lists in interactive "invalid input" retries. Observed in the
WIP rkt_scener stuff...
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It just happened to be tolerable that the first setting in these
randomized settings instances wasn't ever getting described...
due to the ad-hoc nature of how rtv used them.
But in preparation for rkt_scener which will have "randomize
scene" functionality, as well as interactive (re)configuring of
the scenes, these settings instances need to be more correct to
not break things.
It seems awkward to be duplicating this "Renderer module" desc
here however. But I just want to make progress on the scene
editor for rkt, I suspect this will be revisited in the future.
On a high-level it feels like til_module_setup() should be the
thing producing that desc, and the randomizer just picking the
random settings through that setup func.
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When setting up a nested module, the HERMETIC modules shouldn't
be considered as eligible nor should one be the preffered option
(rtv).
This uses the presence of a parent on the settings as a heuristic
for if it's a nested scenario (no parent == root). When nested
the default changes to "compose" from "rtv", and HERMETIC modules
are omitted from the listed values.
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This was assuming non-NULL res_setup which would assert in
til_module_setup_finalize() which doesn't expect a NULL
res_setup since that's its entire purpose.
It's not a bug that was actually triggered by any callers (yet)
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Slight improvement of CPU utilization for fragmenters using this
strategy...
I noticed tile64 would give better FPS in some scenarios where it
seemed obvious slice_per_cpu() was the appropriate option. And
that turned out to just be by virtue of being able to give idle
threads something to do while busy ones finished what was on
their plate.
So just make the slices a bit more granular than n_cpus... this
may have to be revisited in the future to find the sweet spot,
and may need to be more sophisticated than just multiplying by a
constant factor.
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And just maintain it as the last ticks value after rendering with
the context...
A couple modules were already doing this manually in an ad-hoc
fashion, just make it a general thing.
Updated those modules to reflect the new situation
Especially in a rkt world with modules::mixer doing fades, it
becomes common to render the same context twice in the same frame
for the blending. We need to prevent accelerated animations in
such situations. For now let's just rely on ticks in a delta-T
fashion to prevent animating the context when ticks is the same.
modules::stars in particular needs this fixed up, upcoming commit
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Commit 24911280 made til_setup_t required, and most setup code
has already adopted til_module_setup_finalize() added in
c94e4683 for this purpose.
But til_module_setup()'s fall-through case when there's no
til_module_t.setup() on the module being setup was missed. This
broke running simple modules without a .setup() directly like
--module=roto, oops.
Fix is simple.
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I thought the build was already using -Wall but that seems to not
be the case, maybe got lost somewhere along the line or messed up
in configure.ac
After forcing a build with -Wall -Werror, these showed up.
Fixed up in the obvious way, nothing too scary.
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Module contexts are now discoverable via the stream a la
til_stream_find_module_contexts().
The current architecture has the stream adding a reference to all
the contexts registered. So even if they get unreferenced by
their creators, they will linger on-stream.
There's a gc mechanism til_stream_gc_module_contexts() which can
be used to trigger a cleanup of contexts _only_ referenced by the
stream.
It's unclear as of yet if this is the way to go long-term, but it
lets things work for now and allows some iterating and
experimentation to see where to go next.
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This opens up the possibility of referencing contexts on-stream
by-path anywhere a module may be used:
ref,path=/path/to/existing/context
Currently the path lookup is performed @ render time, and a
reference is taken on the context found there on the first time
it's located. That reference is then held in the ref's context
until its context is destroyed.
There are more details to flesh out, and what probably needs to
happen is some til_stream API for maintaining the reference in
the event that the context at that path gets replaced. Due to
refcounting, the referenced context will persist even if the
stream-resident instance goes away, but there should probably be
a way for that replacement to invalidate the existing references
so they replace theirs with a fresh lookup at the path...
Either way this is a good start. With this addition you can
effectively implement scene transitions in rkt, via the mixer
module, something like (sans proper escaping):
mixer,a_module=ref\,path=/foo/previous/ctxt,b_module=ref\,path=/foo/next/ctxt
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open_memstream() isn't implemented by windows (not even mingw)
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this is very early/unfinished, hence experimental flag
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checkers::fill_module is presently implemented via creating
n_cpus identical module contexts, each having n_cpus=1.
Establishing a set of cloned per-cpu contexts, allowing threaded
rendering using any fill_module, regardless of if that module
internally implements threaded rendering.
This works fine, but creates some awkwardness for a future where
contexts are registered and discoverable within the stream at
their respective setup's path. In the checkers::fill_module
case, there would be n_cpus contexts at the same path since they
share the same til_setup_t. Those need to be dealt with
gracefully, ideally making the clones available to another
potentially clone-needing module (imagine a checkers::fill_module
transitionining to another checkers::fill_module situation, where
the transitioned-to fill_module refers to the context by path, it
should get all the contexts out of the stream as-is)
In this commit I'm adding a more formalized method of creating
multiple contexts from the same set of parameters, in preparation
for a future where module contexts get registered on the stream
at their til_setup_t.path. By putting the cloned creates behind
the til API it should at least be relatively trivial to get the
on-stream context registration to capture the multiple contexts.
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Rather than creating an orphaned settings instance private to
til_module_setup_randomize(), the function now requires the
settings instance be provided.
The one remaining caller of this function is modules::rtv. Now
that rtv is responsible for creating the settings beforehand, and
the settings may be created with a path prefix, rtv gets its
til_module_context_t->setup.path prefixed for all the channel
settings.
Another improvement is now the channel settings instance gets
created from the module name as the settings string. So while
it's not yet possible to sparsely specify settings with others
being randomized, at least now when log_channels=on is in effect,
the printed args include the top-level channel module.
Having proper complete paths for the rtv channel modules is
especially visible in --print-paths output FYI.
An interesting test for exercising all this is:
```
$ src/rototiller --module=rtv,duration=0,context_duration=0,snow_module=none,channels=all,log_channels=on --print-pipes --defaults --go 2>/tmp/channels
in another terminal:
$ tail -F /tmp/channels
```
watch the chaos unfold
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r variable is checked for zero(success) before writing to *res_arg,
but could be left uninitialized (especially in a future scenario where
an incoming til_settings_t is fully populated and described).
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Preparatory commit for bridging the gap separating a baked
til_setup_t from a runtime-populated descendant til_settings_t
like modules::rtv produces for its channels via
til_module_setup_randomize().
For these currently orphaned til_settings_t instances we don't
readily have access to the logical ancestor til_settings_t that
was used to produce the module_context's bound til_setup_t. But
we don't really need the ancestor til_settings_t, all we _really_
want is the ancestral path to prefix the orphan til_settings_t
instances.
So this commit introduces supplying a prefix which gets prepended
to paths printed via the settings instance. A later commit will
make use of this in modules::rtv when producing the settings
instance passed to til_module_setup_randomize()
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Preparatory commit for when settings are supplied by caller,
potentially populated and described.
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In a world where "describing" settings is an iterative process,
especially post-nested-settings which are realized via the
desc-applying process, it's better to not even offer desc-setting
while adding a new setting.
This commit just gets rid of that.
The one caller that was passing a non-NULL desc to
til_settings_add_value(), til_module_setup_randomize(), was
redundantly doing so since the subsequent desc-processing was
assigning it again anyways. Future commits will likely change
til_module_setup_randomize() use a non-NULL desc for skipping
desc-applying, which wouldn't even work if it was always setting
the desc @ add time. That becomes necessary for partially
randomizing sparsely-populated settings.
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There's often a need to exclude specific modules, though it's
often a hacky kludge. It's something relied upon currently for
preventing dangerous recursion scenarios, which will likely get
fixed up more robustly in the future.
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In situations where modules wish to alias setting values like
expanding "all" -> "mod0,mod1,mod2,mod3" they need a way to
intercept the value-acceptance @ desc-assignment time in the
front-end. This optional override() function does just that when
present in the spec.
The current setting's value is passed to the override, and
if what's returned differs from what was passed (by pointer
value), then the current value is freed and the override takes
its place. The override function is expected to _always_ return
non-NULL; either the value provided, or a newly allocated value
override. The override function must never free the supplied
value, that's the front-end's job in applying the override.
The override() must return NULL on errors, which are assumed to
be limited to ENOMEM failures.
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Composite modules that want to provide "all" aliases for modules
like rtv have to construct a comma-separated string of all module
names, usually filtered by some flags.
This helper does just that, but it does add yet another
open_memstream() user to revisit when those all get fixed up.
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Mechanical rename just to make this consistent with
til_module_setup()/til_module_setup_finalize()
I should probably do a cleanup pass throughout the til APIs to
standardize on a subject-verb-object or subject-object-verb
order... Things have become a little inconsistent organically
over time
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This changes til_setup_t* from optional to required for
til_module_context_t creation, while dropping the separate path
parameter construction and passing throughout.
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Preparatory for required til_setup_t @ til_module_create_context()
This basically brings til_module_randomize_setup() inline with
til_module_setup_finalize() in that it will still produce a
minimal til_setup_t even if there is no til_module_t.setup()
method.
A future commit will do something about the orphaned
til_settings_t within til_module_randomize_setup() to get a full
path on the produced setup - which will likely simultaneously
bring us into a world where one can influence the randomized
settings externally as well. Influenced in the sense of
potentialy making some of those settings statically configured
while leaving others to be (re)randomized at the time of
til_module_randomize_setup() executing.
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Preparatory commit for til_module_create_context() requiring
setups even when there's no til_module_t.setup() method.
This helper will produce the minimal til_setup_t in such cases,
or hand off the task to til_module_t.setup() when present.
Note the need for passing res_setting and res_desc to
til_module_t.setup() despite not being a settings-construction
scenario. This is because of how modules using nested settings
tend to use res_setting for storing the current setting in
accessing the nested instance, which must still occur even when
just baking the complete setup.
It's expected that any composite/meta modules utilizing other
modules will use this helper to produce the baked setups, instead
of the ad-hoc direct calling of til_module_t.setup() they do
presently.
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b9123bbb added describing incoming preexisting settings, but the
spec's returned values omitted experimental modules. This
resulted in breaking the ability to say things like --module=rkt
to access the experimental rkt module despite it not showing in
the interactive setup list of values.
This commit includes experimental modules in the spec's values
when being produced for a preexisting, undescribed setting.
Restoring one's ability to access experimental modules via the
CLI.
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Currently settings instances get labels from three sources:
1. explicitly labeled by a root-level til_settings_new() call,
like main.c::til_settings_new(NULL, "video", args->video);
2. implicitly labeled in a spec.as_nested_settings w/spec.key
3. positionally labeled in a spec.as_nested_settings w/o spec.key
But when constructing setting/desc paths, using strictly these
settings instance labels as the "directory name path component"
equivalent, leaves something to be desired.
Take this hypothetical module setting path for example:
/module/layers/[0]/viscosity
Strictly using settings instance labels as-is, the above is what
you'd get for the drizzle::viscosity setting in something like:
--module=compose,layers=drizzle
Which is really awkward. What's really desired is more like:
/module/compose/layers/[0]/drizzle/viscosity
Now one way to achieve that is to just create more settings
instances to hold these module names as labels and things would
Just Work more or less.
But that would be rather annoying and heavyweight, when what's
_really_ wanted is a way to turn the first entry's value of a
given setting instance into a sort of synthetic directory
component in the path.
So that's what this commit does. When a spec has .as_label
specified, it's saying that path construction should treat this
setting's value as if it were a label on a settings instance.
But it's special cased to only apply to descs hanging off the
first entry of a settings instance, as that's the only scenario
we're making use of, and it avoids having to do crazy things like
search all the entries for specs w/.as_label set.
It feels a bit janky but it does achieve what's needed with
little pain/churn.
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7ff8ef94 switched things to always describe relevant settings,
but left some loose ends. Obvious fixups for those
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In this "all settings require descs" world, when setup_func
forgets to return a res_desc for a setting it wants, we can end
up in an infinite loop situation. It's better to abort
immediately on the assert to catch such a program error.
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Preparatory for constructing unique paths from a given
setting/settings instance by walking up the tree
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Commit d72e924a introduced skipping experimental modules for the
values, but it didn't bring in a new index for storing the values
so the offset w/skips was being used to store the values too.
This created a sparse set of values for the setup, manifesting as
a wonky partial interactive setup for the module that didn't even
include the default 0 (rtv) value in the list.
Simple fix.
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This just does the obvious pulling in of til_setup_t, holding the
reference throughout the lifetime of the module context.
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If the module has a .setup() method, it should be able to just
blindly expect a valid baked setup to come in @ context create.
Let's enforce that here, and let the module code providing setup
hooks just go forth and access the setup assuming it's at least
present and as valid as their setup method produces.
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This probably needs more work, but it's good enough for now
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This commit pivots everything over to using desc->container as
the target settings instance when adding settings, as well as
actually assigning the settings container @ desc create.
Given nothing is actually triggering settings heirarchies yet (no
specs set as_nested_settings) this shouldn't actually result in
any realized functional difference, yet. The settings pointer
being placed in desc->container should be identical to what was
getting used before.
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For recursive settings the individual setting being described
needs to get added to a potentially different settings instance
than the one being operated on at the top of the current
setup_func phase.
The settings instance being passed around for a setup_func to
operate on is constified, mainly to try ensure modules don't
start directly mucking with the settings. They're supposed to
just describe what they want next and iterate back and forth,
with the front-end creating the settings from the returned descs
however is appropriate, eventually building up the settings to
completion.
But since it's the setup_func that decides which settings
instance is appropriate for containing the setting.. at some
point it must associate a settings instance with the desc it's
producing, one that is going to be necessarily written to.
So here I'm just turning the existing til_setting_desc_t to a
"spec", unchanged. And introducing a new til_setting_desc_t
embedding the spec, accompanied by a non-const til_settings_t*
"container".
Now what setup_funcs use to express settings are a spec,
otherwise identically to before. Instead of cloning a desc to
allocate it for returning to the front-end, the desc is created
from a spec with the target settings instance passed in.
This turns the desc step where we take a constified settings
instance and cast it into a non-const a more formal act of going
from spec->desc, binding the spec to a specific settings
instance. It will also serve to isolate that hacky cast to a
til_settings function, and all the accessors of
til_setting_desc_t needing to operate on the containing settings
instance can just do so.
As of this commit, the container pointer is just sitting in the
desc_t but isn't being made use of or even assigned yet. This is
just to minimize the amount of churn happening in this otherwise
mostly mechanical and sprawling commit.
There's also been some small changes surrounding the desc
generators and plumbing of the settings instance where there
previously wasn't any. It's unclear to me if desc generators
will stay desc generators or turn into spec generators. For now
those are mostly just used by the drm_fb stuff anyways, modules
haven't made use of them, so they can stay a little crufty
harmlessly for now.
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The core thing here is rather than turning a bare value into a
key as I was doing before - we just leave the bare value as a
bare value and its setting must be located positionally via
get_value_by_idx since there's no key.
Existing callers that used to get_key() positionally now
get_value_by_idx() positionally all the same, except it's the
value instead of the key. This is mostly done for things like
the module or fb name at the front of a settings instance.
The impetus for this change is partially just
cosmetic/ergonomics, but it's also rather strange for what's
really a key-less value to be treated as a value-less key. It
was also awkward to talk/reason about on the road to recursive
settings where bare values would be supported as a standalone
settings instance if properly escaped...
This also adds unescaping of keys, and adds a dependency on the
somewhat linux-specific open_memstream() which may need changing
in the future (see comments).
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setup_func isn't formally defined for libtil, but
setup_interactively() defacto establishes it and
til_module_t.setup() reflects the same signature and calling
convention except with til_settings_t constified.
This change makes them all consistent in this regard, but there
should probably be a formal typedef added for the function.
The reason for constifying this is I don't want setup functions
directly manipulating the settings instance. In the case of
rototiller::setup_interactively() we ensure the stdio-based
interactive setup is always the side doing the manipulation of
the settings. For a libtil-user like glimmer, it's slightly
different beast with GTK+ in the loop, but by preventing the
setup_funcs from messing directly with the settings (instead
having to describe what they want done iteratively), the
front-end always gets its opportunity to maintain its state while
doing the described things.
Of course, this is mostly a lie, and within libtil the constified
til_settings_t gets cast away to modify it in places. But
keeping that limited to within libtil is tolerable IMO. We just
don't want to see such casts in module code.
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This adds a mandatory label string to til_setttings_new() and
updates call sites accordingly.
For now the root-level settings created by main.c are simply
named "module" and "video" respectively. Any nested settings
creations on behalf of modules will be labeled using the module's
name the settings are being created for use with.
This might evolve with time, for now it's just a minimum churn
kind of decision. I can see it changing such that the top-level
settings also become labeled by the module/video driver name
rather than the obtuse "module" "video" strings.
How these will be leveraged is unclear presently. At the least
it'll be nice to have a label for debugging til_settings_t
heirarchies once recursive settings support lands. In a sense
this is a preparatory commit for that work. But I could see the
labels ending up in serialization contents as markup/syntactic
sugar just to self-document things as well.
There might also be a need to address til_settings_t instances in
the settings heirarchy, which may be something like a
"label/label/label/label" path style thing - though there'd be a
need to deal with name collisions in that approach.
I'm just thinking a bit about how knobs will become addressed
when those become a real thing. The settings label heirarchy
might be the convenient place to name everything in a tree, which
knobs could then inherit their parent paths from under which
their respective knob labels will reside. For the whole name
collision issue there could just be some builtin settings keys
for overriding the automatic module name labeling, something
like:
--module=compose,layers=checkers\,label=first\,fill_module=shapes:checkers\,label=second\,fill_module=shapes
would result in:
/module/first/shapes
/module/second/shapes
or in a world where the root settings weren't just named "module"
and "video":
/compose/first/shapes
/compose/second/shapes
then if there were knobs under checkers and shapes, say checkers
had a "foo" knob and checkers had a "bar" knob, they'd be under
.knobs in each directory:
/compose/first/.knobs/foo
/compose/first/shapes/.knobs/bar
/compose/second/.knobs/foo
/compose/second/shapes/.knobs/bar
something along those lines, and of course if compose had knobs
they'd be under /compose/.knobs
This is just a brain dump and will surely all change before
implemented.
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