When the SIMD16 Gen4-5 fragment shader payload contains source depth
(g2-3), destination stencil (g4), and destination depth (g5-6), the
single register of stencil makes the destination depth unaligned.
We were generating this instruction in the RT write payload setup:
mov(16) m14<1>F g5<8,8,1>F { align1 compr };
which is illegal, instructions with a source region spanning more than
one register need to be aligned to even registers. This is because the
hardware implicitly does (nr | 1) instead of (nr + 1) when splitting the
compressed instruction into two mov(8)'s.
I believe this would cause the hardware to load g5 twice, replicating
subspan 0-1's destination depth to subspan 2-3. This showed up as 2x2
artifact blocks in both TIS-100 and Reicast.
Normally, we rely on the register allocator to even-align our virtual
GRFs. But we don't control the payload, so we need to lower SIMD widths
to make it work. To fix this, we teach lower_simd_width about the
restriction, and then call it again after lower_load_payload (which is
what generates the offending MOV).
Fixes: 8aee87fe4cce0a883867df3546db0e0a36908086 (i965: Use SIMD16 instead of SIMD8 on Gen4 when possible.)
Bugzilla: https://bugs.freedesktop.org/show_bug.cgi?id=107212
Bugzilla: https://bugs.freedesktop.org/show_bug.cgi?id=13728
Reviewed-by: Jason Ekstrand <jason@jlekstrand.net>
Tested-by: Diego Viola <diego.viola@gmail.com>
}
}
+ if (devinfo->gen < 6) {
+ /* From the G45 PRM, Volume 4 Page 361:
+ *
+ * "Operand Alignment Rule: With the exceptions listed below, a
+ * source/destination operand in general should be aligned to even
+ * 256-bit physical register with a region size equal to two 256-bit
+ * physical registers."
+ *
+ * Normally we enforce this by allocating virtual registers to the
+ * even-aligned class. But we need to handle payload registers.
+ */
+ for (unsigned i = 0; i < inst->sources; i++) {
+ if (inst->src[i].file == FIXED_GRF && (inst->src[i].nr & 1) &&
+ inst->size_read(i) > REG_SIZE) {
+ max_width = MIN2(max_width, 8);
+ }
+ }
+ }
+
/* From the IVB PRMs:
* "When an instruction is SIMD32, the low 16 bits of the execution mask
* are applied for both halves of the SIMD32 instruction. If different
if (OPT(lower_load_payload)) {
split_virtual_grfs();
OPT(register_coalesce);
+ OPT(lower_simd_width);
OPT(compute_to_mrf);
OPT(dead_code_eliminate);
}