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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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Like modules/checkers required for fill_module, we need to do the
same for for compose.
It's a little more weird in compose since compose::layers is a
nested settings full of unnamed nested settings.
But compose::texture is analogous to checkers::fill_module.
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The bare-value value_as_nested_settings.entries[0] setting which
serves as the name for module lookup is in a sort of no-mans land
between checkers and the underlying fill_module's setup.
So we have to do this little bit of rigamarole in checkers, being
the entity wiring up the nested module. The fill_module's
setup_func won't be doing anything to describe the name's
setting as it's only interested in its own settings.
There will likely be some helpers made later to streamline this
process of composing module/settings hierarchies.
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Since these are ultimately intended for use in path construction,
it's redundant to include the settings->label in the generated
label. Instead what's really useful is just the subscript part:
/module/compose/layers/layers[0]/drizzle/viscosity
Becomes:
/module/compose/layers/[0]/drizzle/viscosity
which is far better. It may seem silly to have both the
positional subscript *and* the module name, as in why not just
have:
/module/compose/layers/drizzle/viscosity
But there's a need ot handle potential collisions like so:
/module/compose/layers/[0]/drizzle/viscosity
/module/compose/layers/[1]/stars
/module/compose/layers/[2]/drizzle/viscosity
So then maybe you think; ok, why have the module name? just use
the positional subscript since that alone prevents the
collisions. Result:
/module/compose/layers/[0]/viscosity
...
/module/compose/layers/[2]/viscosity
Well, now we've lost useful context. The viscosity setting
recurs on multiple modules, and we don't know just at a glance
what we're working with anymore.
Hence, why there's both. The module name in the path makes
things substantially more self-explanatory. These paths will
likely be what you're looking at as the labels of tracks in a
multitrack sequencer like GNU Rocket. So this decision is likely
affecting the UX at that level in the fullness of time.
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Since 1a8abe80dabd this ceased to be the right thing to do, since
there's no longer the whole bare-key setting with null value.
It's now always a value, and the key that's optional.
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Preparatory for constructing unique paths from a given
setting/settings instance by walking up the tree
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Using on/off for boolean settings is the established convention
in rototiller, rtv went rogue here.
Just make it consistent
Sometimes it feels like this should be more flexible and support
0/1 yes/no true/false on/off by just having "boolean" typed
settings. But I think it may actually pay off long-term to be so
opinionated here and making serialized settings heirarchies
directly hashable/comparable without major normalization steps
(nothing beyond say... case normalization).
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sig_t collides with some signals-related system header on macos.
Just prefix it under the sig namespace.. leaving sig_ops alone
for now, but maybe they'll become sig_sig_ops in the future too.
Note nothing in master actually uses libs/sig currently, but I
have an experimental branch with a dusty module using it.
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Without this mac builds w/brew must be falling through the
single CPU default linux failure code.
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this oversight becomes apparent when stacking checkers as compose
layers w/random pattern and/or dynamics. The stacked instances
would identical pseudo-random behaviors for lack of seeding.
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These were being supplied backwards to til_module_context_new(),
which mostly just meant the seed always started @ 0 for early
checkers contexts, or were just slightly different ticks values
for later ones.
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3b6e34e70 broke this with what looks to be a silly mistake in
modifying the existing put_pixel() calls.
Kept the fragment->{x,y} instead of removing those and keeping
the bare {x,y}.
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These are expected to match, and it's asserted as such in various
fragmenters. Especially now that we're getting more exuberant
with recursive settings/modules, the correctness of the checkers
cells fragment is becoming more exercised/important.
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til_fb_fragment_get_pixel_clipped() was clipping to the frame
bounds, which are actually just a logical dimension for placing
and scaling fragments within a frame. drizzle in particular is
leaning on this clipped-get to prevent accessing outside of the
fragment's backing buffer. Let's just clip it to the fragment
bounds instead, see comment added for more information.
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As-is it's not great for rtv to randomly wind up in compositions,
see comment in commit for more context.
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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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til_settings_free() needs to recur on nested settings
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settings->settings[] is obnoxious
largely mechanical rename to settings->entries[]
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first step towards settings-izing rtv, channels[] remains
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Now layers= is a settings instance. Each individual setting
within that layers instance is also a settings instance of its
own.
This enables specifying the modules used in the layers as well as
settings to be passed into those per-layer modules.
The escaping quickly becomes brutal if hand-constructing, but
programmatically at least it's workable. Plus, you can let the
interactive setup ask you for all the layer settings then just
copy and paste the cli invocation printed @ startup (at least
with rototiller).
texture= is also now a settings instance, which means compose no
longer randomizes the texture settings on its own - it instead
uses the settings supplied. A consequence of this is that
texture settings need to be actually populated if the texture is
used.
For rtv, which randomizes settings, it makes no difference and
rtv compose invocations w/textures will just end up randomizing
the texture through the normal setup randomizing machinery.
But for direct compose invocations for instance, there's now an
actual texture setup process - and if you just use --defaults,
the defaults will be applied which is different from before where
it would have always been randomized.
This area needs some work, like controlling how defaults are
applied perhaps in the actual settings syntax such that
randomizing can still be performed if desired instead of
"preferred" defaults. That's a more general settings syntax
problem to investigate
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fill_module= now takes a settings string, so you can specify not
just the name of the module, but additional settings passed into
that module's setup.
The fill_module's context path is also now getting fill_module
appended, but see the large comment surrounding that mess WRT
checker's per-cpu fill_module context creations.
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With setup refcounting and a reference bound to the context, we
should just dereference the single instance. The way setups are
used it just as a read-only thing to affect context behavior...
Note I've left the module-type-specific setup pointer despite it
duplicating the setup pointer in the module_context. This is
just a convenience thing so the accessors don't have to cast the
general til_setup_t* to my_module_setup_t* everywhere.
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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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The whole point of til_setup_t is to represent the baked, most
conveniently usable form of a setup derived from one or more
settings instances. Things generally go from the serialization
format "settings string" to til_settings_t eventually culminating
in a til_setup_t.
So the process of making a til_setup_t is rather tedious and kind
of costly. Once into a til_setup_t it's desirable to just hang
on to this form and reuse it if possible. The way a til_setup_t
baked setup is put to use is in a read-only fashion where it
basically just informs behavior, so it makes a lot of sense to
enable refcounting the thing and letting whatever can make use of
it bump the refcount and hold onto the pointer, accessing the
contents whenever it needs to answer a question about that
particular setup.
The immediate impetus for this is actually rtv's snow_module
setup. In rtv every channel switch may recreate the context, if
the context has expired. In the case of the snow module, the
context always expires, and we definitely want to discard the
context while playing the next channel. But when the snow
resumes, in order to recreate the context as configured, we need
the same setup again. It just becomes clear that what's needed
is a way to pin the snow_module's setup for this reuse to be
safe.
There's also plenty of other modules that have been piecemeal
copying settings into their context, when what would really make
more sense is to just ref it and stow the pointer, then unref on
their context destroy. They can just access the setup via the
pointer as needed, instead of having to duplicate the setup in
their context. Indeed, some module contexts even embed the
entire setup just to copy its contents over by value. In
simple/small scenarios that's fine, and I'm sure in those
particular cases it's perfectly safe to do. It just seems
unnecessary altogether.
Another small change made is supporting NULL free_func, which
will default to libc's free(). Most til_setup_new() call sites
are passing free() with an annoying cast, those can be changed to
NULL.
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There was a time when it made sense for context creates needing
setups but not receiving them to still be functional with some
sane defaults.
But with recursive settings, we really shouldn't ever have
orphaned nested module uses unreachable by a proper setup.
So let's just get rid of this fallback, and exclusively rely on
the baked setups provided by the .setup() methods. They still
have preferred defaults, and the proper setup production
machinery is what should be responsible for applying those
at runtime where they may also be overridden or otherwise
influenced.
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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 introduces a boolean style log_channels= setting for
enabling logging of channel settings on channel switch.
It might be nice to change this to accept stdout/stderr/fdnum as
the setting instead of always directing at stderr.
This also doesn't capture the seed state so it's not exactly
logging everything needed to reproduce wholly what is being
shown. Some compositions depend more on rand than others, so
it matters at varying degrees.
It'd be nice for settings syntax to have some global syntax
supported where a seed can always be embedded to be loaded.
Introducing such things as global settings to the settings syntax
is a pending TODO item... right now the only way to load seed
state is at startup passed to main as --seed=. That's not gonna
cut it long-term.
This is an easy big step in the right direction though. Trying
to make sense of what's on-screen from the truncated captions is
impossible. Even if the captions wrapped the settings, it would
be tricky to catch the settings without recording the output or
screenshotting.
This also immediately makes me wonder about the voting system for
rtv where we log settings of favorites... then roll those into
playlists.
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This probably needs more work, but it's good enough for now
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It'll be perfectly normal to turn bare-value settings int nested
instances. In such scenarios we don't have a static
spec-supplied key for the label, so let's just generate a label
like a C-style array subscript for such instances.
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When there's a bare-value setting turned into a nested settings
instance, there's no key onhand for labeling the instance.
But such nameless settings are basically array elements only
positionally accessed. This helper produces labels in that style
for such settings by taking the container settings label and
adding [$idx] to the end.
These labels aren't really used as more than a debugging aid at
the moment. But module contexts already have paths in main, and
it seems like these settings instance labels will likely become
the name components in constructing those paths.
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Currently in rototiller the only (de)serialization format of
settings is the args strings, so this is a rather critical piece
to get in for recursive settings to really be usable.
This is a quick and dirty implementation utilizing
open_memstream() which despite being POSIX has spotty support (I
don't think MacOS has it for instance). So that's probably
something to rip out in the future.
Nonetheless, this moves things forward and works fine on GNU.
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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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There needs to be more flexibility in the value checking
enforcement.
This is just a quick blunt-hammer fix to not trip over nested
settings values which will be huge undeterministic messes vs.
what's likely just a set of simple presets in the spec.values[]
The individual leaf settings will still be checked if they
specify values. So this change just stops even bothering to
check unless the setting is a leaf.
This area needs more work in general, see comments.
For instance right now we can't just pass in arbitrary floats for
settings which list float values, not if that arbitrary float
isn't a member of the list. In some circumstances that's the
right thing to do, as in the module can only work with the
presets.
But most of the time, the module would be perfectly happy with e.g.
foo=.3379 with foo's spec.values[] = { .01, .1, .25, .75, 1} so
the check fails. That's dumb, and interferes with the creative
process when you're just poking different numbers into the
settings to see what happens.
TODO
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Getter for accessing til_settings_t.num
With recursive settings modules will start using settings
instances to represent things like lists of module names.
(modules/compose::layers for instance)
For those cases they'll want to know the number of settings in
the instance before iterating across getting their values
positionally.
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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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Preparatory commit for recursive settings going cray-cray with
escaping. At least single-quote these so it's directly
copy-and-pasteable into a shell prompt.
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When this is set, the setting is itself to be a settings instance
that the frontend must create and place in the relevant
til_setting_t.value_as_nested_settings.
This commit implements that frontend portion in
setup_interactively() for the rototiller frontend.
No setup_func() yet attempts to make use of this stuff. There's
probably more change needed before that can happen, specifically
the setup_func() likely must always produce a til_settings_t* to
indicate which settings instance is currently relevant to the
frontend. Without setup_func() telling the frontend, the
frontend has basically no other way of knowing when the backend
setup_func() has moved up/down the heirarchy at the current
iteration.
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Preparatory commit for settings hierarchies.
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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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Existing code was passing 0 which turns into the number of
cores/threads.
That's fine when compose isn't running nested in an already
threaded render, but falls down in something like checkers
w/fill_module=compose since checkers is already threading. But
when checkers creates its fill_module context, it's careful to
pass 1 for n_cpus to prevent that kind of thing. With this
change that no longer falls apart.
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Finishes build/fs part of modules/rocket->modules/rkt rename
started in previous commit.
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It's annoying to have the til module called rocket, and the sync
tracker protocol/library called rocket, so let's at least
differentiate it in code/comments/textual discussion.
Plus this results in shorter module context paths i.e.:
/rkt:scene
/rkt/compose/drizzle:rain
/rkt/compose/drizzle:viscosity
/rkt/compose/plato:spin_rate
/rkt/compose/plato:orbit_rate
vs.
/rocket:scene
etc...
These names are shown in the editor, and they'll tend to be long
but let's at least get the root name down to three chars this
way.
A rename of the files and build system update will come in a
subsequent commit
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Upstream merged my TCP_NODELAY PR, so let's get it in rototiller.
Note I'm blindly setting USE_NODELAY now, but it might actually
break the build for win32 - still need to test that.
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With taps more or less fully implemented, it seems appropriate to
get rid of the stubbed out knobs for now.
Taps don't express the same things about range and usage knobs
aspired towards, but they don't preclude adding such things
either. But it seems clear that the way knobs were stubbed won't
be complementing taps as things stand currently to add those
aspects.
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There should probably be others for the ball radiuses, and colors
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this needs more work to really be useful...
clockstep should be tapped, there should probably be a T tap to
control the emitters' cycle
im doubtful how useful this module will generally be though. It
really needs interactions with other things, like fluid going
around pixbounce
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Just some obvious taps...
Note the actual usable range for viscosity is quite small, like
no greater than .05 really works. There still needs to be some
way to describe bounds on the taps, that or normalizing things to
always be 0-1 or -1..+1 kind of thing, and expecting the modules
or the tap api to map those to the sane ranges.
Just leave everything raw for now, wiring up the taps at least
opens up experimentation and getting a feel for what makes most
sense.
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