gl_FragDepth default value is gl_FragCoord.z so if a shader does:
gl_FragDepth = gl_FragCoord.z
we can drop this assignment.
v2: use nir_ssa_scalar_resolved and don't do this is gl_FragDepth
is wrote multiple times (Jason)
v3: - move to its own pass (Jason)
- handle var = NULL (Rhys)
v4: refactoring (Jason)
Reviewed-by: Jason Ekstrand <jason@jlekstrand.net>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/10697>
Per https://gitlab.freedesktop.org/mesa/mesa/-/issues/5178#note_1019666,
the assumption fundamental to this optimization is false. Section
2.4.1 (Float to Integer) of Ivy Bridge PRMs describes the situation.
The wording of the section is somewhat confusing (because it doesn't
clearly delineate between signed and unsigned integers), but the last
two rows of the table make it clear that F->UD conversion clamps
negative float values to 0.
All other hardware mentioned in that thread seems to behave the same
way.
The real problem is that, with hardware that behaves in this ways,
converting f2u(2147483648.0) to f2i(2147483648.0) changes the bit pattern
that would be produced from 0x80000000 to 0x7fffffff.
This reverts commit ad05920258.
Reviewed-by: Jason Ekstrand <jason@jlekstrand.net>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/12297>
Otherwise drivers that don't use 16-bit slots for varyings will get
confused and have their driver_locations scribbled over. This has caused
multiple problems for both Panfrost and Asahi this week. Given the only
other user of the pass for varyings is radeonsi, which needs both
together, I think this is the least controversial fix.
Fixes: fb29cef8dd ("nir: add many passes that lower and optimize 16-bit input/outputs and samplers")
Signed-off-by: Alyssa Rosenzweig <alyssa@collabora.com>
Reviewed-by: Jason Ekstrand <jason@jlekstrand.net>
Reviewed-by: Marek Olšák <marek.olsak@amd.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/11732>
It can happen that the user reads an input attachment as the first use
of that attachment. In that case there are no subpass dependencies
required at all, because there could be a pipeline barrier before the
renderpass instead, and in any case we assume that dependencies with the
first subpass as a destination can be executed only once outside the
renderpass. The result is that we only do a CACHE_INVALIDATE once
before the entire renderpass, but it's actually required after each GMEM
load, because input attachments read GMEM through UCHE and those writes
to GMEM invalidate UCHE.
While we could add the missing CACHE_INVALIDATE "by hand" somehow, it
turns out it's actually just as easy to do an optimization the blob
does, where it simply doesn't patch those input attachments and reads
them directly instead. This means we can skip allocating memory in GMEM
for them entirely in some circumstances.
This fixes e.g.
dEQP-VK.api.copy_and_blit.core.resolve_image.whole_array_image.4_bit
with TU_DEBUG=forcebin.
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/12213>
Only GFX10+ is affected because older chips don't support
comp-to-single. For them, we need to implement FCE on compute with DCC
and eventually CMASK.
Fixes the gap between concurrent vs exclusive queue with Scarlet Nexus,
also gives a boost with Doom Eternal.
Signed-off-by: Samuel Pitoiset <samuel.pitoiset@gmail.com>
Reviewed-by: Bas Nieuwenhuizen <bas@basnieuwenhuizen.nl>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/12088>
The code we had for this was a work in progress and not finished. Also,
it was geared towards partial writes caused by output packing (i.e.
fp16) and was ignoring partial updates caused by conditional writes,
which are far more common in our case.
This change provides an implementation for tracking conditional writes
that works in tandem with the previous spill change to narrow liveness
for their spills.
Fixes register allocation failures in:
dEQP-VK.graphicsfuzz.spv-stable-maze-flatten-copy-composite
We also gain one shader from shader-db:
total instructions in shared programs: 13339969 -> 13338584 (-0.01%)
instructions in affected programs: 185520 -> 184135 (-0.75%)
helped: 375
HURT: 130
Instructions are helped.
total threads in shared programs: 412038 -> 412040 (<.01%)
threads in affected programs: 2 -> 4 (100.00%)
helped: 1
HURT: 0
total uniforms in shared programs: 3746581 -> 3746585 (<.01%)
uniforms in affected programs: 49 -> 53 (8.16%)
helped: 0
HURT: 1
total max-temps in shared programs: 2359960 -> 2359947 (<.01%)
max-temps in affected programs: 289 -> 276 (-4.50%)
helped: 7
HURT: 0
Max-temps are helped.
total sfu-stalls in shared programs: 34351 -> 34359 (0.02%)
sfu-stalls in affected programs: 218 -> 226 (3.67%)
helped: 35
HURT: 37
Inconclusive result (value mean confidence interval includes 0).
total inst-and-stalls in shared programs: 13374320 -> 13372943 (-0.01%)
inst-and-stalls in affected programs: 186653 -> 185276 (-0.74%)
helped: 373
HURT: 132
Inst-and-stalls are helped.
LOST: 0
GAINED: 1
Reviewed-by: Alejandro Piñeiro <apinheiro@igalia.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/12278>
A spill of a conditional write generates code like this:
mov.ifa t5000, 0
mov tmud, t5000
nop t5001; ldunif (0x00008100 / 0.000000)
add tmua, t11, t5001
Here, we are spilling t5000, which has a conditional write, and we
produce an inconditional spill for it. This implicitly means that
our spill requires a correct value for all channels of t5000.
If we do a conditional spill, then we emit:
mov.ifa t5000, 0
mov tmud.ifa, t5000
nop t5001; ldunif (0x00008100 / 0.000000)
add tmua.ifa, t11, t5001
Which only uses channels of t5000 that have been written by the
instruction being spilled.
By doing the latter, we can then narrow down the liveness for t5000
more effectively, as we can use this to detect that the block only reads
(in the tmud instruction) the values that have been written previously
in the same block (in the mov instruction). This means that values in
other channels are not used, and therefore, we don't need them to be
alive at the start of the block. This means that if this is the only
write of t5000 in this block, we can consider that the block
completely defines t5000.
Reviewed-by: Alejandro Piñeiro <apinheiro@igalia.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/12278>
Crosvm deals with virtio-gpu commands sequentially, so parallelization
in the host doesn't help much.
Also, too much parallelization in the guest causes some tests to time
out.
So reduce the number of dEQP instances being run concurrently, make sure
we dont limit the number of CPUs being used in the host and schedule
more jobs in CI to keep the times below 10 minutes.
Closes: #5172
Signed-off-by: Tomeu Vizoso <tomeu.vizoso@collabora.com>
Reviewed-by: Gert Wollny <gert.wollny@collabora.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/12196>
