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This was causing the snow module to scribble via montage, since
snow uses per-cpu rand seeds indexed using the cpu value.
I didn't dig in to see if this was a vestigial thing where
fragnum once was passed as a parameter (it's also in
til_fb_fragment_t.number, but probably wasn't always that way).
But it's now used as a cpu idx, but since they're the same type
nothing complained, they say programming is hard.
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Also shortened the durations across the board, and defaulted snow
to "none".
With "compose" being another meta module, and the randomized
settings, this actually gives a more interesting grand tour of
everything possible.
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Just adds TIL_FB_DRAW_FLAG_TEXTURABLE so callers can granularly
inhibit texturing if desired.
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Idea here is to provide texture sources for obtaining pixel
colors at the til_fb_put_pixel/fill drawing API, making it
possible for at least overlayable modules to serve as
mask/stencil operators where their drawn areas are populated by
the contents of another fragment produced dynamically,
potentially by other modules altogether.
This commit adds a texture=modulename option to the compose
module for specifying if a texture should be used when
compositing, excepting and defaulting to "none" for disabling
texturing.
A future commit should expand this compose option to accept a
potential list of modules for composing the texture in the same
way as the main layers= list functions.
Something this all immediately makes clear is the need for
a better settings syntax, probably in the form of all module
setting specifiers optionally being followed by a squence
of settings, with support for escaping to handle nested
situations.
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Same as for roto and plasma...
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As with roto, it's important to differentiate plasma instances
when layered... plus it's kind of boring to always start plasma
identically.
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Just something quick and dirty to differentiate roto layers, plus
it's kind of boring having roto always start at the same state.
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It's no longer necessary to specify both snow_duration=0 AND
snow_module=none to disable snow, just specify snow_module=none.
A future commit should really make describing the "snow_duration"
setting contingent on snow_module != "none".
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rtv special-cased handling a nil module to mean clear the
fragment, and called this "none"
But it really makes more sense for rtv to treat "none" as not
doing anything at all for its snow_module - not even blanking.
And it would be nice to have a consistent way to express a blank
module throughout rototiller, so this introduces a concept of
built-in modules accessible only via explicit lookup by name
which don't get enumerated via til_get_modules(), as they're
inherently uninteresting more utility-oriented modules for use by
other modules.
For now it's only "blank" that constitutes the built-ins list,
but expanding this is only a matter of introducing more modules
there. Future commits will rework rtv to use "blank" in place of
its current "none", and rtv's "none" will be reworked to
represent no snow mechanism at all, obviating the need to specify
snow_duration=0,snow_module=none required today.
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Just one case, modules/submit, was using 32x32 tiles and is now
using 64x64. I don't expect it to make any difference.
While here I fixed up the num_cpus/n_cpus naming inconsistencies,
normalizing on n_cpus.
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Most of the threaded modules have settled down on two basic forms
of fragmenter function:
1. a slice per cpu, where tile-oriented locality isn't useful
2. ~64x64 tiles, in scenarios where screen-space locality helps
Now that n_cpus is wired up to the fragmenter, #1 can be
fulfilled without requiring a module-private context plumbing
n_cpus from create_context().
A future commit will replace some module-specific fragmenters by
returning one of these instead as res_fragmenter in their
prepare_frame(), wherever applicable.
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Fragmenting is often dimensioned according to the number of cpus,
and by not supplying this to the fragmenter it was made rather
common for module contexts to plumb this themselves - in some
cases incorporating a context type/create/destroy rigamarole
for the n_cpus circuit alone.
So just plumb it in libtil, and the prepare_frame functions can
choose to ignore it if they have something more desirable onhand.
Future commits will remove a bunch of n_cpus from module contexts
in favor of this.
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The code was deliberately showing a single frame of snow when
snow_duration=0, since the durations are integral seconds ther
was no way to have a sub 1-second snow otherwise.
snow_module=none just means cleared for the snow_duration, not no
snow mechanism whatsoever. So the combination of 0 duration and
"none" was still flashing a single blank frame.
With this commit the combination of "none" and 0 snow_duration
prevents even a single frame of blank snow from being rendered.
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cosmetic indentation fixup
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Mechanical rename to something less ambiguous in a world with
til_settings_t, til_setting_t, and til_setup_t etc.
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This adds a voronoi diagram module, which when used as an overlay
produces a mosaic effect.
Some settings:
cells=N number of voronoi cells
randomize={on,off} randomizes the cell locations every frame
dirty={on,off} uses a faster sloppy/dithery-looking method
Some TODO items:
- use a more space efficient representation of the distance
buffer, maybe use uint16_t relative offsets into the cells
rather than pointers - capping their quantity to 64KiB
- anti-alias edges between cells
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This just slows things down, and now that the code is mature
enough to never trigger these asserts just get rid of them.
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short-circuit by directly returning bound when exceeded
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dotgradient() is very hot and needs this result when indexing
din->grid[]. Since it doesn't change for a given din instance,
just cache the result @ din_new().
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compute scaled x/y coordinates less often by reusing them
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Quick FPS based comparisons shows this simple change gets a
nearly 10% FPS boost on this particular 4-core i7 laptop.
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Originally it seemed sensible to make these units of bytes, for
flexibility reasons.
But it's advantageous for everything to be able to assume pixels
are always 4-byte/32-bit aligned. Having the stride/pitch be in
bytes of units made it theoretically possible to produce
unaligned rows of pixels, which would break that assumption.
I don't think anything was ever actually producing such things,
and I've added some asserts to the {sdl,drm}_fb.c page
acquisition code to go fatal on such pages.
This change required going through all the modules and get rid of
their uint32_t vs. void* dances and other such 1-byte vs. 4-byte
scaling arithmetic.
Code is simpler now, and probably faster in some cases. And now
allows future work to just assume things cna always occur 4-bytes
at a time without concern for unaligned accesses.
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This braino wasn't actually showing itself in any output since it
was always being used to fill either 0xffffffff or 0x00000000.
But if an actual pixel having distinct RGB values were supplied,
it wouldn't have worked right as just the low char was being
written to the destination buffer's bytes.
Additionally I think the til_fb_fragment_t.{pitch,stride} members
should probably change to the number of pixels (uint32_t) vs.
bytes. The thinking initially was to facilitate describing
fragments having rows split up with arbitrary numbers of bytes.
Having a constraint of requiring the pixels always be 32-bit
aligned ensures dword-at-a-time optimized copies can always
succeed without something like SIGBUS occurring. When such a
constraint is respected, the pitch/stride will always be 32-bit
aligned so they should just describe numbers of pixels.
Except, one can imagine scenarios where writing bytes at a time
instead of uint32_t's at a time can produce interesting
color-staggerring effects, and introducing a deliberate offset in
the pitch/stride making it unaligned can be interesting.
I'm leaving it all alone for now, but there's already assumptions
being made about doing uint32_t-grained operations on the
fragment's buf. Even the til_fb_fragment_t.buf's type is a
uint32_t* already, and it forces us to use a void* or char*
version of the pointer to apply pitch/stride as in this commit.
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Without gamma correction the linear colors don't really pop, this
helps tremendously.
The gamma factor is hard-coded at 1.4 currently but may make
sense as a runtime setting.
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This is a first approximation at introducing colors to flui2d, the
emitter colors aren't really well tuned or anything yet.
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Inspired by my little fomo match-four game PoC, this is a similar
style phased emitter grid layout producing some neat turbulent
interactions.
Introduces an emitters={figure8,clockgrid} setting, and when
clockgrid is used, a clockstep=[.05-.99] for the radians step
made from one grid cell's emitter to the next where 1=2PI.
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During rtv runs we'd occasionally segfault in the unchecked line
drawing. This needs to be fixed, but for now just go slower.
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@Ph1l tripped over this after installing just build-essential
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This adds count=N and orientation={horizontal,vertical} settings.
Which was precipitated by the introduction of a vertical blinds
mode.
e.g.:
--module=blinds,count=32,orientation=vertical
or for a quick tour of the possibilities:
--module=rtv,channels=blinds,duration=1,context_duration=1,snow_duration=0
weeeee
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It's getting crazy in here, this is fun:
--module=rtv,channels=compose,duration=1,snow_duration=0,context_duration=1
which will rejigger the commpose module w/randomized layers every second.
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In the interests of facilitating randomized automagic layered
compositing, tell the world when you're overlay-appropriate.
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For modules which are overlay-appropriate, they should indicate
it when initializing their respective til_module_t. If they
intend to participate in automagic compositing as overlays
anyways.
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Just some fixups after a quick review
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This should plug a bulk of the setup leaks. Some of the
free_funcs still need to be changed to bespoke ones in modules
that allocate nested things in their respective setup, so those
are still leaking the nested things which are usually just a
small strdup of some kind.
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simple wrapper around til_setup_t.free()
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This brings something resembling an actual type to the private
objects returrned in *res_setup. Internally libtil/rototiller
wants this to be a til_setup_t, and it's up to the private users
of what's returned in *res_setup to embed this appropriately and
either use container_of() or casting when simply embedded at the
start to go between til_setup_t and their private containing
struct.
Everywhere *res_setup was previously allocated using calloc() is
now using til_setup_new() with a free_func, which til_setup_new()
will initialize appropriately. There's still some remaining work
to do with the supplied free_func in some modules, where free()
isn't quite appropriate.
Setup freeing isn't actually being performed yet, but this sets
the foundation for that to happen in a subsequent commit that
cleans up the setup leaks.
Many modules use a static default setup for when no setup has
been provided. In those cases, the free_func would be NULL,
which til_setup_new() refuses to do. When setup freeing actually
starts happening, it'll simply skip freeing when
til_setup_t.free_func is NULL.
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For use when setup functions allocate their private setup to
return in *res_setup.
They specify the size of their private setup, and supply the free
function to use. This may be libc's free() when it's a simple
setup struct, or a bespoke free function when deep/complex
freeing is required for cleanup.
It's expected that callers will be embedding til_setup_t at the
start of their private setup struct, and returning a pointer to
this in *res_setup which would be the same value as a pointer to
to their private setup struct.
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Preparatory commit for providing a res_setup type to replace
void*.
The impetus for this isn't just pursuit of less void*, but
primarily implementing setup freeing by embedding this struct
into the private setup types.
An alternative method of adding setup freeing would have been to
introduce something like til_module_t.free_setup(). But that
would require having the til_module_t on hand, and the whole
setup machinery is more generalized than til_module_t anyways.
This way anything can simply embed the struct in their private
setup instance and return the pointer to that in *res_setup.
They should always be able to find their containing struct's
offset from the til_setup_t* they returned. Either by using
container_of(), or simply placing it at the start of the private
setup struct.
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Randomize the setting of the layered modules like rtv does.
This needs to free the setup, similarly to the others, once
that facility is added.
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Instead of always showing defaults, randomize the setup like rtv
does.
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This makes the arg return optional by using a res_arg pointer,
instead returning -ENOMEM when it would have returned NULL on
allocation failures.
This also makes it possible to detect when no setup was
performed, by returning 0 in such a case. Now returns 1 when
setup occurs and res pointers populated.
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This commit pulls the setup randomizer out of rtv into libtil
proper, so other modules may make use of it.
Other than adding an assert no functional changes occurred.
It may make sense to split this into two functions; one which
takes a til_module_t as-is, and a lower-level bare setup function
callback based function that doesn't know about til_module_t the
former would call into. That way generic setup randomization can
occur (the same setup machinery is used in video contexts for
example) without necessarily having a til_module_t on hand.
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expose the checkers module to the rest of the world
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This adds a checkers style overlay module, it's not terribly
interesting but may be made more useful if modules start
differentiating themselves as substantial vs. overlay effects.
It'd be nice if rtv/compose could automagically apply and
randomize overlay modules atop others, which would make use of
this type of thing as well as encourage more small modules like
these be written.
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There's been a longstanding todo item in montage where it was
ignoring the fragmenter returned by a module's prepare_frame().
This commit continues with the single-threaded rendering of the
modules within their respective tiles, still ad-hoc open coded.
But now actually applies the fragmenter returned as if the
rendering were being threaded, since when a module returns a
fragmenter from its prepare_frame() it may strongly depend on
that fragmenting for its output.
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This isn't super interesting but I might just start adding
simplistic overlay style modules for compositing/transition use.
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