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authorTim Rowley <[email protected]>2017-02-09 13:43:32 -0800
committerTim Rowley <[email protected]>2017-03-20 18:04:53 -0500
commit9d3442575f818edd821b7777ff438f4734102f22 (patch)
tree8c6daf227b2ab8eba96502b7f8ba38110dfca44f /src/gallium/drivers
parent7b94e5e1faccff1bab08b359d800b7ede9d63be6 (diff)
swr: [rasterizer core] Finish SIMD16 PA OPT except tesselation
Reviewed-by: Bruce Cherniak <[email protected]>
Diffstat (limited to 'src/gallium/drivers')
-rw-r--r--src/gallium/drivers/swr/rasterizer/core/pa.h84
-rw-r--r--src/gallium/drivers/swr/rasterizer/core/pa_avx.cpp1595
2 files changed, 1405 insertions, 274 deletions
diff --git a/src/gallium/drivers/swr/rasterizer/core/pa.h b/src/gallium/drivers/swr/rasterizer/core/pa.h
index 7f60a04a9ff..6b7efb8daf4 100644
--- a/src/gallium/drivers/swr/rasterizer/core/pa.h
+++ b/src/gallium/drivers/swr/rasterizer/core/pa.h
@@ -119,8 +119,6 @@ struct PA_STATE
// cuts
struct PA_STATE_OPT : public PA_STATE
{
- SIMDVERTEX leadingVertex; // For tri-fan
-
uint32_t numPrims{ 0 }; // Total number of primitives for draw.
uint32_t numPrimsComplete{ 0 }; // Total number of complete primitives.
@@ -367,87 +365,6 @@ INLINE simd16vector& PaGetSimdVector_simd16(PA_STATE& pa, uint32_t index, uint32
}
#endif
-INLINE __m128 swizzleLane0(const simdvector &a)
-{
- simdscalar tmp0 = _mm256_unpacklo_ps(a.x, a.z);
- simdscalar tmp1 = _mm256_unpacklo_ps(a.y, a.w);
- return _mm256_extractf128_ps(_mm256_unpacklo_ps(tmp0, tmp1), 0);
-}
-
-INLINE __m128 swizzleLane1(const simdvector &a)
-{
- simdscalar tmp0 = _mm256_unpacklo_ps(a.x, a.z);
- simdscalar tmp1 = _mm256_unpacklo_ps(a.y, a.w);
- return _mm256_extractf128_ps(_mm256_unpackhi_ps(tmp0, tmp1), 0);
-}
-
-INLINE __m128 swizzleLane2(const simdvector &a)
-{
- simdscalar tmp0 = _mm256_unpackhi_ps(a.x, a.z);
- simdscalar tmp1 = _mm256_unpackhi_ps(a.y, a.w);
- return _mm256_extractf128_ps(_mm256_unpacklo_ps(tmp0, tmp1), 0);
-}
-
-INLINE __m128 swizzleLane3(const simdvector &a)
-{
- simdscalar tmp0 = _mm256_unpackhi_ps(a.x, a.z);
- simdscalar tmp1 = _mm256_unpackhi_ps(a.y, a.w);
- return _mm256_extractf128_ps(_mm256_unpackhi_ps(tmp0, tmp1), 0);
-}
-
-INLINE __m128 swizzleLane4(const simdvector &a)
-{
- simdscalar tmp0 = _mm256_unpacklo_ps(a.x, a.z);
- simdscalar tmp1 = _mm256_unpacklo_ps(a.y, a.w);
- return _mm256_extractf128_ps(_mm256_unpacklo_ps(tmp0, tmp1), 1);
-
-}
-
-INLINE __m128 swizzleLane5(const simdvector &a)
-{
- simdscalar tmp0 = _mm256_unpacklo_ps(a.x, a.z);
- simdscalar tmp1 = _mm256_unpacklo_ps(a.y, a.w);
- return _mm256_extractf128_ps(_mm256_unpackhi_ps(tmp0, tmp1), 1);
-}
-
-INLINE __m128 swizzleLane6(const simdvector &a)
-{
- simdscalar tmp0 = _mm256_unpackhi_ps(a.x, a.z);
- simdscalar tmp1 = _mm256_unpackhi_ps(a.y, a.w);
- return _mm256_extractf128_ps(_mm256_unpacklo_ps(tmp0, tmp1), 1);
-}
-
-INLINE __m128 swizzleLane7(const simdvector &a)
-{
- simdscalar tmp0 = _mm256_unpackhi_ps(a.x, a.z);
- simdscalar tmp1 = _mm256_unpackhi_ps(a.y, a.w);
- return _mm256_extractf128_ps(_mm256_unpackhi_ps(tmp0, tmp1), 1);
-}
-
-INLINE __m128 swizzleLaneN(const simdvector &a, int lane)
-{
- switch (lane) {
- case 0:
- return swizzleLane0(a);
- case 1:
- return swizzleLane1(a);
- case 2:
- return swizzleLane2(a);
- case 3:
- return swizzleLane3(a);
- case 4:
- return swizzleLane4(a);
- case 5:
- return swizzleLane5(a);
- case 6:
- return swizzleLane6(a);
- case 7:
- return swizzleLane7(a);
- default:
- return _mm_setzero_ps();
- }
-}
-
// Cut-aware primitive assembler.
struct PA_STATE_CUT : public PA_STATE
{
@@ -470,7 +387,6 @@ struct PA_STATE_CUT : public PA_STATE
SIMDSCALARI vPrimId; // vector of prim ID
bool needOffsets{ false }; // need to compute gather offsets for current SIMD
uint32_t vertsPerPrim{ 0 };
- SIMDVERTEX tmpVertex; // temporary simdvertex for unimplemented API
bool processCutVerts{ false }; // vertex indices with cuts should be processed as normal, otherwise they
// are ignored. Fetch shader sends invalid verts on cuts that should be ignored
// while the GS sends valid verts for every index
diff --git a/src/gallium/drivers/swr/rasterizer/core/pa_avx.cpp b/src/gallium/drivers/swr/rasterizer/core/pa_avx.cpp
index a8d8379297e..22643bdcc34 100644
--- a/src/gallium/drivers/swr/rasterizer/core/pa_avx.cpp
+++ b/src/gallium/drivers/swr/rasterizer/core/pa_avx.cpp
@@ -34,6 +34,250 @@
#if (KNOB_SIMD_WIDTH == 8)
+INLINE __m128 swizzleLane0(const simdscalar &x, const simdscalar &y, const simdscalar &z, const simdscalar &w)
+{
+ simdscalar tmp0 = _mm256_unpacklo_ps(x, z);
+ simdscalar tmp1 = _mm256_unpacklo_ps(y, w);
+ return _mm256_extractf128_ps(_mm256_unpacklo_ps(tmp0, tmp1), 0);
+}
+
+INLINE __m128 swizzleLane1(const simdscalar &x, const simdscalar &y, const simdscalar &z, const simdscalar &w)
+{
+ simdscalar tmp0 = _mm256_unpacklo_ps(x, z);
+ simdscalar tmp1 = _mm256_unpacklo_ps(y, w);
+ return _mm256_extractf128_ps(_mm256_unpackhi_ps(tmp0, tmp1), 0);
+}
+
+INLINE __m128 swizzleLane2(const simdscalar &x, const simdscalar &y, const simdscalar &z, const simdscalar &w)
+{
+ simdscalar tmp0 = _mm256_unpackhi_ps(x, z);
+ simdscalar tmp1 = _mm256_unpackhi_ps(y, w);
+ return _mm256_extractf128_ps(_mm256_unpacklo_ps(tmp0, tmp1), 0);
+}
+
+INLINE __m128 swizzleLane3(const simdscalar &x, const simdscalar &y, const simdscalar &z, const simdscalar &w)
+{
+ simdscalar tmp0 = _mm256_unpackhi_ps(x, z);
+ simdscalar tmp1 = _mm256_unpackhi_ps(y, w);
+ return _mm256_extractf128_ps(_mm256_unpackhi_ps(tmp0, tmp1), 0);
+}
+
+INLINE __m128 swizzleLane4(const simdscalar &x, const simdscalar &y, const simdscalar &z, const simdscalar &w)
+{
+ simdscalar tmp0 = _mm256_unpacklo_ps(x, z);
+ simdscalar tmp1 = _mm256_unpacklo_ps(y, w);
+ return _mm256_extractf128_ps(_mm256_unpacklo_ps(tmp0, tmp1), 1);
+}
+
+INLINE __m128 swizzleLane5(const simdscalar &x, const simdscalar &y, const simdscalar &z, const simdscalar &w)
+{
+ simdscalar tmp0 = _mm256_unpacklo_ps(x, z);
+ simdscalar tmp1 = _mm256_unpacklo_ps(y, w);
+ return _mm256_extractf128_ps(_mm256_unpackhi_ps(tmp0, tmp1), 1);
+}
+
+INLINE __m128 swizzleLane6(const simdscalar &x, const simdscalar &y, const simdscalar &z, const simdscalar &w)
+{
+ simdscalar tmp0 = _mm256_unpackhi_ps(x, z);
+ simdscalar tmp1 = _mm256_unpackhi_ps(y, w);
+ return _mm256_extractf128_ps(_mm256_unpacklo_ps(tmp0, tmp1), 1);
+}
+
+INLINE __m128 swizzleLane7(const simdscalar &x, const simdscalar &y, const simdscalar &z, const simdscalar &w)
+{
+ simdscalar tmp0 = _mm256_unpackhi_ps(x, z);
+ simdscalar tmp1 = _mm256_unpackhi_ps(y, w);
+ return _mm256_extractf128_ps(_mm256_unpackhi_ps(tmp0, tmp1), 1);
+}
+
+INLINE __m128 swizzleLane0(const simdvector &v)
+{
+ return swizzleLane0(v.x, v.y, v.z, v.w);
+}
+
+INLINE __m128 swizzleLane1(const simdvector &v)
+{
+ return swizzleLane1(v.x, v.y, v.z, v.w);
+}
+
+INLINE __m128 swizzleLane2(const simdvector &v)
+{
+ return swizzleLane2(v.x, v.y, v.z, v.w);
+}
+
+INLINE __m128 swizzleLane3(const simdvector &v)
+{
+ return swizzleLane3(v.x, v.y, v.z, v.w);
+}
+
+INLINE __m128 swizzleLane4(const simdvector &v)
+{
+ return swizzleLane4(v.x, v.y, v.z, v.w);
+}
+
+INLINE __m128 swizzleLane5(const simdvector &v)
+{
+ return swizzleLane5(v.x, v.y, v.z, v.w);
+}
+
+INLINE __m128 swizzleLane6(const simdvector &v)
+{
+ return swizzleLane6(v.x, v.y, v.z, v.w);
+}
+
+INLINE __m128 swizzleLane7(const simdvector &v)
+{
+ return swizzleLane7(v.x, v.y, v.z, v.w);
+}
+
+INLINE __m128 swizzleLaneN(const simdvector &v, int lane)
+{
+ switch (lane)
+ {
+ case 0:
+ return swizzleLane0(v);
+ case 1:
+ return swizzleLane1(v);
+ case 2:
+ return swizzleLane2(v);
+ case 3:
+ return swizzleLane3(v);
+ case 4:
+ return swizzleLane4(v);
+ case 5:
+ return swizzleLane5(v);
+ case 6:
+ return swizzleLane6(v);
+ case 7:
+ return swizzleLane7(v);
+ default:
+ return _mm_setzero_ps();
+ }
+}
+
+#if ENABLE_AVX512_SIMD16
+INLINE __m128 swizzleLane0(const simd16vector &v)
+{
+ return swizzleLane0(_simd16_extract_ps(v.x, 0), _simd16_extract_ps(v.y, 0), _simd16_extract_ps(v.z, 0), _simd16_extract_ps(v.w, 0));
+}
+
+INLINE __m128 swizzleLane1(const simd16vector &v)
+{
+ return swizzleLane1(_simd16_extract_ps(v.x, 0), _simd16_extract_ps(v.y, 0), _simd16_extract_ps(v.z, 0), _simd16_extract_ps(v.w, 0));
+}
+
+INLINE __m128 swizzleLane2(const simd16vector &v)
+{
+ return swizzleLane2(_simd16_extract_ps(v.x, 0), _simd16_extract_ps(v.y, 0), _simd16_extract_ps(v.z, 0), _simd16_extract_ps(v.w, 0));
+}
+
+INLINE __m128 swizzleLane3(const simd16vector &v)
+{
+ return swizzleLane3(_simd16_extract_ps(v.x, 0), _simd16_extract_ps(v.y, 0), _simd16_extract_ps(v.z, 0), _simd16_extract_ps(v.w, 0));
+}
+
+INLINE __m128 swizzleLane4(const simd16vector &v)
+{
+ return swizzleLane4(_simd16_extract_ps(v.x, 0), _simd16_extract_ps(v.y, 0), _simd16_extract_ps(v.z, 0), _simd16_extract_ps(v.w, 0));
+}
+
+INLINE __m128 swizzleLane5(const simd16vector &v)
+{
+ return swizzleLane5(_simd16_extract_ps(v.x, 0), _simd16_extract_ps(v.y, 0), _simd16_extract_ps(v.z, 0), _simd16_extract_ps(v.w, 0));
+}
+
+INLINE __m128 swizzleLane6(const simd16vector &v)
+{
+ return swizzleLane6(_simd16_extract_ps(v.x, 0), _simd16_extract_ps(v.y, 0), _simd16_extract_ps(v.z, 0), _simd16_extract_ps(v.w, 0));
+}
+
+INLINE __m128 swizzleLane7(const simd16vector &v)
+{
+ return swizzleLane7(_simd16_extract_ps(v.x, 0), _simd16_extract_ps(v.y, 0), _simd16_extract_ps(v.z, 0), _simd16_extract_ps(v.w, 0));
+}
+
+INLINE __m128 swizzleLane8(const simd16vector &v)
+{
+ return swizzleLane0(_simd16_extract_ps(v.x, 1), _simd16_extract_ps(v.y, 1), _simd16_extract_ps(v.z, 1), _simd16_extract_ps(v.w, 1));
+}
+
+INLINE __m128 swizzleLane9(const simd16vector &v)
+{
+ return swizzleLane1(_simd16_extract_ps(v.x, 1), _simd16_extract_ps(v.y, 1), _simd16_extract_ps(v.z, 1), _simd16_extract_ps(v.w, 1));
+}
+
+INLINE __m128 swizzleLaneA(const simd16vector &v)
+{
+ return swizzleLane2(_simd16_extract_ps(v.x, 1), _simd16_extract_ps(v.y, 1), _simd16_extract_ps(v.z, 1), _simd16_extract_ps(v.w, 1));
+}
+
+INLINE __m128 swizzleLaneB(const simd16vector &v)
+{
+ return swizzleLane3(_simd16_extract_ps(v.x, 1), _simd16_extract_ps(v.y, 1), _simd16_extract_ps(v.z, 1), _simd16_extract_ps(v.w, 1));
+}
+
+INLINE __m128 swizzleLaneC(const simd16vector &v)
+{
+ return swizzleLane4(_simd16_extract_ps(v.x, 1), _simd16_extract_ps(v.y, 1), _simd16_extract_ps(v.z, 1), _simd16_extract_ps(v.w, 1));
+}
+
+INLINE __m128 swizzleLaneD(const simd16vector &v)
+{
+ return swizzleLane5(_simd16_extract_ps(v.x, 1), _simd16_extract_ps(v.y, 1), _simd16_extract_ps(v.z, 1), _simd16_extract_ps(v.w, 1));
+}
+
+INLINE __m128 swizzleLaneE(const simd16vector &v)
+{
+ return swizzleLane6(_simd16_extract_ps(v.x, 1), _simd16_extract_ps(v.y, 1), _simd16_extract_ps(v.z, 1), _simd16_extract_ps(v.w, 1));
+}
+
+INLINE __m128 swizzleLaneF(const simd16vector &v)
+{
+ return swizzleLane7(_simd16_extract_ps(v.x, 1), _simd16_extract_ps(v.y, 1), _simd16_extract_ps(v.z, 1), _simd16_extract_ps(v.w, 1));
+}
+
+INLINE __m128 swizzleLaneN(const simd16vector &v, int lane)
+{
+ switch (lane)
+ {
+ case 0:
+ return swizzleLane0(v);
+ case 1:
+ return swizzleLane1(v);
+ case 2:
+ return swizzleLane2(v);
+ case 3:
+ return swizzleLane3(v);
+ case 4:
+ return swizzleLane4(v);
+ case 5:
+ return swizzleLane5(v);
+ case 6:
+ return swizzleLane6(v);
+ case 7:
+ return swizzleLane7(v);
+ case 8:
+ return swizzleLane8(v);
+ case 9:
+ return swizzleLane9(v);
+ case 10:
+ return swizzleLaneA(v);
+ case 11:
+ return swizzleLaneB(v);
+ case 12:
+ return swizzleLaneC(v);
+ case 13:
+ return swizzleLaneD(v);
+ case 14:
+ return swizzleLaneE(v);
+ case 15:
+ return swizzleLaneF(v);
+ default:
+ return _mm_setzero_ps();
+ }
+}
+
+#endif
bool PaTriList0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
bool PaTriList1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
bool PaTriList2(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
@@ -46,28 +290,56 @@ void PaTriListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m12
bool PaTriStrip0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
bool PaTriStrip1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
+#if ENABLE_AVX512_SIMD16
+bool PaTriStrip0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+bool PaTriStrip1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+#endif
void PaTriStripSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[]);
bool PaTriFan0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
bool PaTriFan1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
+#if ENABLE_AVX512_SIMD16
+bool PaTriFan0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+bool PaTriFan1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+#endif
void PaTriFanSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[]);
bool PaQuadList0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
bool PaQuadList1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
+#if ENABLE_AVX512_SIMD16
+bool PaQuadList0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+bool PaQuadList1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+#endif
void PaQuadListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[]);
bool PaLineLoop0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
bool PaLineLoop1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
+#if ENABLE_AVX512_SIMD16
+bool PaLineLoop0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+bool PaLineLoop1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+#endif
+void PaLineLoopSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[]);
bool PaLineList0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
bool PaLineList1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
-void PaLineListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t index, __m128 verts[]);
+#if ENABLE_AVX512_SIMD16
+bool PaLineList0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+bool PaLineList1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+#endif
+void PaLineListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[]);
bool PaLineStrip0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
bool PaLineStrip1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
-void PaLineStripSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 lineverts[]);
+#if ENABLE_AVX512_SIMD16
+bool PaLineStrip0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+bool PaLineStrip1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+#endif
+void PaLineStripSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[]);
bool PaPoints0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
+#if ENABLE_AVX512_SIMD16
+bool PaPoints0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[]);
+#endif
void PaPointsSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[]);
bool PaRectList0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[]);
@@ -208,11 +480,43 @@ bool PaTriList1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
bool PaTriList2(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
{
#if KNOB_ARCH == KNOB_ARCH_AVX
+#if USE_SIMD16_FRONTEND
+ simdvector a;
+ simdvector b;
+ simdvector c;
- simdvector& a = PaGetSimdVector(pa, 0, slot);
- simdvector& b = PaGetSimdVector(pa, 1, slot);
- simdvector& c = PaGetSimdVector(pa, 2, slot);
- simdscalar s;
+ if (!pa.useAlternateOffset)
+ {
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot);
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
+ c[i] = _simd16_extract_ps(b_16[i], 0);
+ }
+ }
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
+ const simd16vector &c_16 = PaGetSimdVector_simd16(pa, 2, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(b_16[i], 1);
+ b[i] = _simd16_extract_ps(c_16[i], 0);
+ c[i] = _simd16_extract_ps(c_16[i], 1);
+ }
+ }
+
+#else
+ simdvector &a = PaGetSimdVector(pa, 0, slot);
+ simdvector &b = PaGetSimdVector(pa, 1, slot);
+ simdvector &c = PaGetSimdVector(pa, 2, slot);
+
+#endif
+ simdscalar s;
// Tri Pattern - provoking vertex is always v0
// v0 -> 0 3 6 9 12 15 18 21
@@ -244,15 +548,46 @@ bool PaTriList2(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
}
#elif KNOB_ARCH >= KNOB_ARCH_AVX2
-
const simdscalari perm0 = _simd_set_epi32(5, 2, 7, 4, 1, 6, 3, 0);
const simdscalari perm1 = _simd_set_epi32(6, 3, 0, 5, 2, 7, 4, 1);
const simdscalari perm2 = _simd_set_epi32(7, 4, 1, 6, 3, 0, 5, 2);
+#if USE_SIMD16_FRONTEND
+ simdvector a;
+ simdvector b;
+ simdvector c;
+
+ if (!pa.useAlternateOffset)
+ {
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot);
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
+ c[i] = _simd16_extract_ps(b_16[i], 0);
+ }
+ }
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
+ const simd16vector &c_16 = PaGetSimdVector_simd16(pa, 2, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(b_16[i], 1);
+ b[i] = _simd16_extract_ps(c_16[i], 0);
+ c[i] = _simd16_extract_ps(c_16[i], 1);
+ }
+ }
+
+#else
const simdvector &a = PaGetSimdVector(pa, 0, slot);
const simdvector &b = PaGetSimdVector(pa, 1, slot);
const simdvector &c = PaGetSimdVector(pa, 2, slot);
+#endif
// v0 -> a0 a3 a6 b1 b4 b7 c2 c5
// v1 -> a1 a4 a7 b2 b5 c0 c3 c6
// v2 -> a2 a5 b0 b3 b6 c1 c4 c7
@@ -264,18 +599,16 @@ bool PaTriList2(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
// for simd x, y, z, and w
for (int i = 0; i < 4; ++i)
{
- v0[i] = _simd_blend_ps(_simd_blend_ps(a[i], b[i], 0x92), c[i], 0x24);
- v0[i] = _simd_permute_ps(v0[i], perm0);
-
- v1[i] = _simd_blend_ps(_simd_blend_ps(a[i], b[i], 0x24), c[i], 0x49);
- v1[i] = _simd_permute_ps(v1[i], perm1);
+ simdscalar temp0 = _simd_blend_ps(_simd_blend_ps(a[i], b[i], 0x92), c[i], 0x24);
+ simdscalar temp1 = _simd_blend_ps(_simd_blend_ps(a[i], b[i], 0x24), c[i], 0x49);
+ simdscalar temp2 = _simd_blend_ps(_simd_blend_ps(a[i], b[i], 0x49), c[i], 0x92);
- v2[i] = _simd_blend_ps(_simd_blend_ps(a[i], b[i], 0x49), c[i], 0x92);
- v2[i] = _simd_permute_ps(v2[i], perm2);
+ v0[i] = _simd_permute_ps(temp0, perm0);
+ v1[i] = _simd_permute_ps(temp1, perm1);
+ v2[i] = _simd_permute_ps(temp2, perm2);
}
#endif
-
SetNextPaState(pa, PaTriList0, PaTriListSingle0, 0, KNOB_SIMD_WIDTH, true);
return true;
}
@@ -314,14 +647,13 @@ bool PaTriList2_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
// for simd16 x, y, z, and w
for (int i = 0; i < 4; i += 1)
{
- v0[i] = _simd16_blend_ps(_simd16_blend_ps(a[i], b[i], 0x4924), c[i], 0x2492);
- v0[i] = _simd16_permute_ps(v0[i], perm0);
+ simd16scalar temp0 = _simd16_blend_ps(_simd16_blend_ps(a[i], b[i], 0x4924), c[i], 0x2492);
+ simd16scalar temp1 = _simd16_blend_ps(_simd16_blend_ps(a[i], b[i], 0x9249), c[i], 0x4924);
+ simd16scalar temp2 = _simd16_blend_ps(_simd16_blend_ps(a[i], b[i], 0x2492), c[i], 0x9249);
- v1[i] = _simd16_blend_ps(_simd16_blend_ps(a[i], b[i], 0x9249), c[i], 0x4924);
- v1[i] = _simd16_permute_ps(v1[i], perm1);
-
- v2[i] = _simd16_blend_ps(_simd16_blend_ps(a[i], b[i], 0x2492), c[i], 0x9249);
- v2[i] = _simd16_permute_ps(v2[i], perm2);
+ v0[i] = _simd16_permute_ps(temp0, perm0);
+ v1[i] = _simd16_permute_ps(temp1, perm1);
+ v2[i] = _simd16_permute_ps(temp2, perm2);
}
SetNextPaState_simd16(pa, PaTriList0_simd16, PaTriListSingle0, 0, KNOB_SIMD16_WIDTH, true);
@@ -331,46 +663,119 @@ bool PaTriList2_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
#endif
void PaTriListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[])
{
- // We have 12 simdscalars contained within 3 simdvectors which
- // hold at least 8 triangles worth of data. We want to assemble a single
- // triangle with data in horizontal form.
#if USE_SIMD16_FRONTEND
- const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot);
- const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
- const simd16vector &c_16 = PaGetSimdVector_simd16(pa, 2, slot);
-
- simdvector a;
- simdvector b;
- simdvector c;
+ const simd16vector &a = PaGetSimdVector_simd16(pa, 0, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, 1, slot);
+ const simd16vector &c = PaGetSimdVector_simd16(pa, 2, slot);
- for (uint32_t i = 0; i < 4; i += 1)
+ if (pa.useAlternateOffset)
{
- if (pa.useAlternateOffset)
- {
- a[i] = b_16[i].hi;
- b[i] = c_16[i].lo;
- c[i] = c_16[i].hi;
- }
- else
- {
- a[i] = a_16[i].lo;
- b[i] = a_16[i].hi;
- c[i] = b_16[i].lo;
- }
+ primIndex += KNOB_SIMD_WIDTH;
}
+ // v0 -> a0 a3 a6 a9 aC aF b2 b5 b8 bB bE c1 c4 c7 cA cD
+ // v1 -> a1 a4 a7 aA aD b0 b3 b6 b9 bC bF c2 c5 c8 cB cE
+ // v2 -> a2 a5 b8 aB aE b1 b4 b7 bA bD c0 c3 c6 c9 cC cF
+
+ switch (primIndex)
+ {
+ case 0:
+ verts[0] = swizzleLane0(a);
+ verts[1] = swizzleLane1(a);
+ verts[2] = swizzleLane2(a);
+ break;
+ case 1:
+ verts[0] = swizzleLane3(a);
+ verts[1] = swizzleLane4(a);
+ verts[2] = swizzleLane5(a);
+ break;
+ case 2:
+ verts[0] = swizzleLane6(a);
+ verts[1] = swizzleLane7(a);
+ verts[2] = swizzleLane8(a);
+ break;
+ case 3:
+ verts[0] = swizzleLane9(a);
+ verts[1] = swizzleLaneA(a);
+ verts[2] = swizzleLaneB(a);
+ break;
+ case 4:
+ verts[0] = swizzleLaneC(a);
+ verts[1] = swizzleLaneD(a);
+ verts[2] = swizzleLaneE(a);
+ break;
+ case 5:
+ verts[0] = swizzleLaneF(a);
+ verts[1] = swizzleLane0(b);
+ verts[2] = swizzleLane1(b);
+ break;
+ case 6:
+ verts[0] = swizzleLane2(b);
+ verts[1] = swizzleLane3(b);
+ verts[2] = swizzleLane4(b);
+ break;
+ case 7:
+ verts[0] = swizzleLane5(b);
+ verts[1] = swizzleLane6(b);
+ verts[2] = swizzleLane7(b);
+ break;
+ case 8:
+ verts[0] = swizzleLane8(b);
+ verts[1] = swizzleLane9(b);
+ verts[2] = swizzleLaneA(b);
+ break;
+ case 9:
+ verts[0] = swizzleLaneB(b);
+ verts[1] = swizzleLaneC(b);
+ verts[2] = swizzleLaneD(b);
+ break;
+ case 10:
+ verts[0] = swizzleLaneE(b);
+ verts[1] = swizzleLaneF(b);
+ verts[2] = swizzleLane0(c);
+ break;
+ case 11:
+ verts[0] = swizzleLane1(c);
+ verts[1] = swizzleLane2(c);
+ verts[2] = swizzleLane3(c);
+ break;
+ case 12:
+ verts[0] = swizzleLane4(c);
+ verts[1] = swizzleLane5(c);
+ verts[2] = swizzleLane6(c);
+ break;
+ case 13:
+ verts[0] = swizzleLane7(c);
+ verts[1] = swizzleLane8(c);
+ verts[2] = swizzleLane9(c);
+ break;
+ case 14:
+ verts[0] = swizzleLaneA(c);
+ verts[1] = swizzleLaneB(c);
+ verts[2] = swizzleLaneC(c);
+ break;
+ case 15:
+ verts[0] = swizzleLaneD(c);
+ verts[1] = swizzleLaneE(c);
+ verts[2] = swizzleLaneF(c);
+ break;
+ };
#else
- simdvector& a = PaGetSimdVector(pa, 0, slot);
- simdvector& b = PaGetSimdVector(pa, 1, slot);
- simdvector& c = PaGetSimdVector(pa, 2, slot);
+ // We have 12 simdscalars contained within 3 simdvectors which
+ // hold at least 8 triangles worth of data. We want to assemble a single
+ // triangle with data in horizontal form.
+
+ const simdvector &a = PaGetSimdVector(pa, 0, slot);
+ const simdvector &b = PaGetSimdVector(pa, 1, slot);
+ const simdvector &c = PaGetSimdVector(pa, 2, slot);
-#endif
// Convert from vertical to horizontal.
// Tri Pattern - provoking vertex is always v0
// v0 -> 0 3 6 9 12 15 18 21
// v1 -> 1 4 7 10 13 16 19 22
// v2 -> 2 5 8 11 14 17 20 23
- switch(primIndex)
+
+ switch (primIndex)
{
case 0:
verts[0] = swizzleLane0(a);
@@ -413,6 +818,7 @@ void PaTriListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m12
verts[2] = swizzleLane7(c);
break;
};
+#endif
}
bool PaTriStrip0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
@@ -423,9 +829,37 @@ bool PaTriStrip0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
bool PaTriStrip1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
{
- simdvector& a = PaGetSimdVector(pa, pa.prev, slot);
- simdvector& b = PaGetSimdVector(pa, pa.cur, slot);
- simdscalar s;
+#if USE_SIMD16_FRONTEND
+ simdvector a;
+ simdvector b;
+
+ if (!pa.useAlternateOffset)
+ {
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, pa.prev, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
+ }
+ }
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(b_16[i], 0);
+ b[i] = _simd16_extract_ps(b_16[i], 1);
+ }
+ }
+
+#else
+ simdvector &a = PaGetSimdVector(pa, pa.prev, slot);
+ simdvector &b = PaGetSimdVector(pa, pa.cur, slot);
+
+#endif
+ simdscalar s;
for(int i = 0; i < 4; ++i)
{
@@ -440,7 +874,7 @@ bool PaTriStrip1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
v0[i] = a0;
// s -> 4567891011
- s = _mm256_permute2f128_ps(a0, b0, 0x21);
+ s = _simd_permute2f128_ps(a0, b0, 0x21);
// s -> 23456789
s = _simd_shuffle_ps(a0, s, _MM_SHUFFLE(1, 0, 3, 2));
@@ -457,11 +891,17 @@ bool PaTriStrip1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
return true;
}
-#if 0 // ENABLE_AVX512_SIMD16
-bool PaTriStrip1_simd16(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
+#if ENABLE_AVX512_SIMD16
+bool PaTriStrip0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
{
- const simd16vector &a = PaGetSimdVector(pa, pa.prev, slot);
- const simd16vector &b = PaGetSimdVector(pa, pa.cur, slot);
+ SetNextPaState_simd16(pa, PaTriStrip1_simd16, PaTriStripSingle0);
+ return false; // Not enough vertices to assemble 16 triangles.
+}
+
+bool PaTriStrip1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ const simd16vector &a = PaGetSimdVector_simd16(pa, pa.prev, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, pa.cur, slot);
simd16vector &v0 = verts[0];
simd16vector &v1 = verts[1];
@@ -477,7 +917,7 @@ bool PaTriStrip1_simd16(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
simd16scalar perm0 = _simd16_permute2f128_ps(a[i], a[i], 0x39); // (0 3 2 1) = 00 11 10 01 // a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF a0 a1 a2 a3
simd16scalar perm1 = _simd16_permute2f128_ps(b[i], b[i], 0x39); // (0 3 2 1) = 00 11 10 01 // b4 b5 b6 b7 b8 b9 bA bB bC bD bE bF b0 b1 b2 b3
- simd16scalar blend = _simd16_blend_ps(perm0, perm1, 0xF000); // // a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF b0 b1 b2 b3
+ simd16scalar blend = _simd16_blend_ps(perm0, perm1, 0xF000); // a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF b0 b1 b2 b3
simd16scalar shuff = _simd16_shuffle_ps(a[i], blend, _MM_SHUFFLE(1, 0, 3, 2)); // a2 a3 a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF b0 b1
v0[i] = a[i]; // a0 a1 a2 a3 a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF
@@ -485,22 +925,120 @@ bool PaTriStrip1_simd16(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
v2[i] = _simd16_shuffle_ps(a[i], shuff, _MM_SHUFFLE(2, 2, 2, 2)); // a2 a2 a4 a4 a6 a6 a8 a8 aA aA aC aC aE aE b0 b0
}
- SetNextPaState(pa, PaTriStrip1, PaTriStripSingle0, 0, KNOB_SIMD16_WIDTH);
+ SetNextPaState_simd16(pa, PaTriStrip1_simd16, PaTriStripSingle0, 0, KNOB_SIMD16_WIDTH);
return true;
}
#endif
void PaTriStripSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[])
{
- simdvector& a = PaGetSimdVector(pa, pa.prev, slot);
- simdvector& b = PaGetSimdVector(pa, pa.cur, slot);
+#if USE_SIMD16_FRONTEND
+ const simd16vector &a = PaGetSimdVector_simd16(pa, pa.prev, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ if (pa.useAlternateOffset)
+ {
+ primIndex += KNOB_SIMD_WIDTH;
+ }
+
+ // v0 -> a0 a1 a2 a3 a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF
+ // v1 -> a1 a3 a3 a5 a5 a7 a7 a9 a9 aB aB aD aD aF aF b1
+ // v2 -> a2 a2 a4 a4 a6 a6 a8 a8 aA aA aC aC aE aE b0 b0
+
+ switch (primIndex)
+ {
+ case 0:
+ verts[0] = swizzleLane0(a);
+ verts[1] = swizzleLane1(a);
+ verts[2] = swizzleLane2(a);
+ break;
+ case 1:
+ verts[0] = swizzleLane1(a);
+ verts[1] = swizzleLane3(a);
+ verts[2] = swizzleLane2(a);
+ break;
+ case 2:
+ verts[0] = swizzleLane2(a);
+ verts[1] = swizzleLane3(a);
+ verts[2] = swizzleLane4(a);
+ break;
+ case 3:
+ verts[0] = swizzleLane3(a);
+ verts[1] = swizzleLane5(a);
+ verts[2] = swizzleLane4(a);
+ break;
+ case 4:
+ verts[0] = swizzleLane4(a);
+ verts[1] = swizzleLane5(a);
+ verts[2] = swizzleLane6(a);
+ break;
+ case 5:
+ verts[0] = swizzleLane5(a);
+ verts[1] = swizzleLane7(a);
+ verts[2] = swizzleLane6(a);
+ break;
+ case 6:
+ verts[0] = swizzleLane6(a);
+ verts[1] = swizzleLane7(a);
+ verts[2] = swizzleLane8(a);
+ break;
+ case 7:
+ verts[0] = swizzleLane7(a);
+ verts[1] = swizzleLane9(a);
+ verts[2] = swizzleLane8(a);
+ break;
+ case 8:
+ verts[0] = swizzleLane8(a);
+ verts[1] = swizzleLane9(a);
+ verts[2] = swizzleLaneA(a);
+ break;
+ case 9:
+ verts[0] = swizzleLane9(a);
+ verts[1] = swizzleLaneB(a);
+ verts[2] = swizzleLaneA(a);
+ break;
+ case 10:
+ verts[0] = swizzleLaneA(a);
+ verts[1] = swizzleLaneB(a);
+ verts[2] = swizzleLaneC(a);
+ break;
+ case 11:
+ verts[0] = swizzleLaneB(a);
+ verts[1] = swizzleLaneD(a);
+ verts[2] = swizzleLaneC(a);
+ break;
+ case 12:
+ verts[0] = swizzleLaneC(a);
+ verts[1] = swizzleLaneD(a);
+ verts[2] = swizzleLaneE(a);
+ break;
+ case 13:
+ verts[0] = swizzleLaneD(a);
+ verts[1] = swizzleLaneF(a);
+ verts[2] = swizzleLaneE(a);
+ break;
+ case 14:
+ verts[0] = swizzleLaneE(a);
+ verts[1] = swizzleLaneF(a);
+ verts[2] = swizzleLane0(b);
+ break;
+ case 15:
+ verts[0] = swizzleLaneF(a);
+ verts[1] = swizzleLane1(b);
+ verts[2] = swizzleLane0(b);
+ break;
+ };
+#else
+ const simdvector &a = PaGetSimdVector(pa, pa.prev, slot);
+ const simdvector &b = PaGetSimdVector(pa, pa.cur, slot);
// Convert from vertical to horizontal.
// Tri Pattern - provoking vertex is always v0
// v0 -> 01234567
// v1 -> 13355779
// v2 -> 22446688
- switch(primIndex)
+
+ switch (primIndex)
{
case 0:
verts[0] = swizzleLane0(a);
@@ -543,35 +1081,57 @@ void PaTriStripSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m1
verts[2] = swizzleLane0(b);
break;
};
+#endif
}
bool PaTriFan0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
{
- simdvector& a = PaGetSimdVector(pa, pa.cur, slot);
-
- // Extract vertex 0 to every lane of first vector
- for(int i = 0; i < 4; ++i)
- {
- __m256 a0 = a[i];
- simdvector& v0 = verts[0];
- v0[i] = _simd_shuffle_ps(a0, a0, _MM_SHUFFLE(0, 0, 0, 0));
- v0[i] = _mm256_permute2f128_ps(v0[i], a0, 0x00);
- }
-
- // store off leading vertex for attributes
- PA_STATE_OPT::SIMDVERTEX* pVertex = (PA_STATE_OPT::SIMDVERTEX*)pa.pStreamBase;
- pa.leadingVertex = pVertex[pa.cur];
-
SetNextPaState(pa, PaTriFan1, PaTriFanSingle0);
return false; // Not enough vertices to assemble 8 triangles.
}
bool PaTriFan1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
{
- PA_STATE_OPT::SIMDVECTOR& leadVert = pa.leadingVertex.attrib[slot];
- simdvector& a = PaGetSimdVector(pa, pa.prev, slot);
- simdvector& b = PaGetSimdVector(pa, pa.cur, slot);
- simdscalar s;
+#if USE_SIMD16_FRONTEND
+ simdvector leadVert;
+ simdvector a;
+ simdvector b;
+
+ const simd16vector &leadvert_16 = PaGetSimdVector_simd16(pa, pa.first, slot);
+
+ if (!pa.useAlternateOffset)
+ {
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, pa.prev, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ leadVert[i] = _simd16_extract_ps(leadvert_16[i], 0);
+
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
+ }
+ }
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ leadVert[i] = _simd16_extract_ps(leadvert_16[i], 0);
+
+ a[i] = _simd16_extract_ps(b_16[i], 0);
+ b[i] = _simd16_extract_ps(b_16[i], 1);
+ }
+ }
+
+#else
+ simdvector &leadVert = PaGetSimdVector(pa, pa.first, slot);
+
+ simdvector &a = PaGetSimdVector(pa, pa.prev, slot);
+ simdvector &b = PaGetSimdVector(pa, pa.cur, slot);
+
+#endif
+ simdscalar s;
// need to fill vectors 1/2 with new verts, and v0 with anchor vert.
for(int i = 0; i < 4; ++i)
@@ -579,17 +1139,14 @@ bool PaTriFan1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
simdscalar a0 = a[i];
simdscalar b0 = b[i];
-#if USE_SIMD16_FRONTEND
- __m256 comp = leadVert[i].lo;
-#else
- __m256 comp = leadVert[i];
-#endif
+ simdscalar comp = leadVert[i];
+
simdvector& v0 = verts[0];
v0[i] = _simd_shuffle_ps(comp, comp, _MM_SHUFFLE(0, 0, 0, 0));
- v0[i] = _mm256_permute2f128_ps(v0[i], comp, 0x00);
+ v0[i] = _simd_permute2f128_ps(v0[i], comp, 0x00);
simdvector& v2 = verts[2];
- s = _mm256_permute2f128_ps(a0, b0, 0x21);
+ s = _simd_permute2f128_ps(a0, b0, 0x21);
v2[i] = _simd_shuffle_ps(a0, s, _MM_SHUFFLE(1, 0, 3, 2));
simdvector& v1 = verts[1];
@@ -600,45 +1157,114 @@ bool PaTriFan1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
return true;
}
+#if ENABLE_AVX512_SIMD16
+bool PaTriFan0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ SetNextPaState_simd16(pa, PaTriFan1_simd16, PaTriFanSingle0);
+ return false; // Not enough vertices to assemble 16 triangles.
+}
+
+bool PaTriFan1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ const simd16vector &a = PaGetSimdVector_simd16(pa, pa.first, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, pa.prev, slot);
+ const simd16vector &c = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ simd16vector &v0 = verts[0];
+ simd16vector &v1 = verts[1];
+ simd16vector &v2 = verts[2];
+
+ // v0 -> a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0
+ // v1 -> b1 b2 b3 b4 b5 b6 b7 b8 b9 bA bB bC bD bE bF c0
+ // v2 -> b2 b3 b4 b5 b6 b7 b8 b9 bA bB bC bD bE bF c0 c1
+
+ // for simd16 x, y, z, and w
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ simd16scalar shuff = _simd16_shuffle_ps(a[i], a[i], _MM_SHUFFLE(0, 0, 0, 0)); // a0 a0 a0 a0 a4 a4 a4 a4 a0 a0 a0 a0 a4 a4 a4 a4
+
+ v0[i] = _simd16_permute2f128_ps(shuff, shuff, 0x00); // a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0
+
+ simd16scalar temp0 = _simd16_permute2f128_ps(b[i], b[i], 0x39); // (0 3 2 1) = 00 11 10 01 // b4 b5 b6 b7 b8 b9 bA bB bC bD bE bF b0 b1 b2 b3
+ simd16scalar temp1 = _simd16_permute2f128_ps(c[i], c[i], 0x39); // (0 3 2 1) = 00 11 10 01 // c4 c5 c6 c7 c8 c9 cA cB cC cD cE cF c0 c1 c2 c3
+
+ simd16scalar blend = _simd16_blend_ps(temp0, temp1, 0xF000); // b4 b5 b6 b7 b8 b9 bA bB bC bD bE bF c0 c1 c2 c3
+
+ v2[i] = _simd16_shuffle_ps(b[i], blend, _MM_SHUFFLE(1, 0, 3, 2)); // b2 b3 b4 b5 b6 b7 b8 b9 bA bB bC bD bE bF c0 c1
+ v1[i] = _simd16_shuffle_ps(b[i], v2[i], _MM_SHUFFLE(2, 1, 2, 1)); // b1 b2 b3 b4 b5 b6 b7 b8 b9 bA bB bC bD bE bF c0
+ }
+
+ SetNextPaState_simd16(pa, PaTriFan1_simd16, PaTriFanSingle0, 0, KNOB_SIMD16_WIDTH);
+ return true;
+}
+
+#endif
void PaTriFanSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[])
{
- // vert 0 from leading vertex
#if USE_SIMD16_FRONTEND
- PA_STATE_OPT::SIMDVECTOR& temp = pa.leadingVertex.attrib[slot];
-
- simdvector lead;
- lead[0] = temp[0].lo;
- lead[1] = temp[1].lo;
- lead[2] = temp[2].lo;
- lead[3] = temp[3].lo;
- verts[0] = swizzleLane0(lead);
+ const simd16vector &a = PaGetSimdVector_simd16(pa, pa.first, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, pa.prev, slot);
+ const simd16vector &c = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ if (pa.useAlternateOffset)
+ {
+ primIndex += KNOB_SIMD_WIDTH;
+ }
+
+ // v0 -> a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0 a0
+ // v1 -> b1 b2 b3 b4 b5 b6 b7 b8 b9 bA bB bC bD bE bF c0
+ // v2 -> b2 b3 b4 b5 b6 b7 b8 b9 bA bB bC bD bE bF c0 c1
+
+ // vert 0 from leading vertex
+ verts[0] = swizzleLane0(a);
+
+ // vert 1
+ if (primIndex < 15)
+ {
+ verts[1] = swizzleLaneN(b, primIndex + 1);
+ }
+ else
+ {
+ verts[1] = swizzleLane0(c);
+ }
+
+ // vert 2
+ if (primIndex < 14)
+ {
+ verts[2] = swizzleLaneN(b, primIndex + 2);
+ }
+ else
+ {
+ verts[2] = swizzleLaneN(c, primIndex - 14);
+ }
#else
- PA_STATE_OPT::SIMDVECTOR& lead = pa.leadingVertex.attrib[slot];
- verts[0] = swizzleLane0(lead);
-#endif
+ const simdvector &a = PaGetSimdVector(pa, pa.first, slot);
+ const simdvector &b = PaGetSimdVector(pa, pa.prev, slot);
+ const simdvector &c = PaGetSimdVector(pa, pa.cur, slot);
- simdvector& a = PaGetSimdVector(pa, pa.prev, slot);
- simdvector& b = PaGetSimdVector(pa, pa.cur, slot);
+ // vert 0 from leading vertex
+ verts[0] = swizzleLane0(a);
// vert 1
if (primIndex < 7)
{
- verts[1] = swizzleLaneN(a, primIndex + 1);
+ verts[1] = swizzleLaneN(b, primIndex + 1);
}
else
{
- verts[1] = swizzleLane0(b);
+ verts[1] = swizzleLane0(c);
}
// vert 2
if (primIndex < 6)
{
- verts[2] = swizzleLaneN(a, primIndex + 2);
+ verts[2] = swizzleLaneN(b, primIndex + 2);
}
else
{
- verts[2] = swizzleLaneN(b, primIndex - 6);
+ verts[2] = swizzleLaneN(c, primIndex - 6);
}
+#endif
}
bool PaQuadList0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
@@ -649,9 +1275,37 @@ bool PaQuadList0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
bool PaQuadList1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
{
- simdvector& a = PaGetSimdVector(pa, 0, slot);
- simdvector& b = PaGetSimdVector(pa, 1, slot);
- simdscalar s1, s2;
+#if USE_SIMD16_FRONTEND
+ simdvector a;
+ simdvector b;
+
+ if (!pa.useAlternateOffset)
+ {
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
+ }
+ }
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(b_16[i], 0);
+ b[i] = _simd16_extract_ps(b_16[i], 1);
+ }
+ }
+
+#else
+ simdvector &a = PaGetSimdVector(pa, 0, slot);
+ simdvector &b = PaGetSimdVector(pa, 1, slot);
+
+#endif
+ simdscalar s1, s2;
for(int i = 0; i < 4; ++i)
{
@@ -675,10 +1329,52 @@ bool PaQuadList1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
return true;
}
+#if ENABLE_AVX512_SIMD16
+bool PaQuadList0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ SetNextPaState_simd16(pa, PaQuadList1_simd16, PaQuadListSingle0);
+ return false; // Not enough vertices to assemble 16 triangles.
+}
+
+bool PaQuadList1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ const simd16vector &a = PaGetSimdVector_simd16(pa, 0, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, 1, slot);
+
+ simd16vector &v0 = verts[0];
+ simd16vector &v1 = verts[1];
+ simd16vector &v2 = verts[2];
+
+ // v0 -> a0 a0 a4 a4 a8 a8 aC aC b0 b0 b0 b0 b0 b0 bC bC
+ // v1 -> a1 a2 a5 a6 a9 aA aD aE b1 b2 b5 b6 b9 bA bD bE
+ // v2 -> a2 a3 a6 a7 aA aB aE aF b2 b3 b6 b7 bA bB bE bF
+
+ // for simd16 x, y, z, and w
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ simd16scalar temp0 = _simd16_permute2f128_ps(a[i], b[i], 0x88); // (2 0 2 0) = 10 00 10 00 // a0 a1 a2 a3 a8 a9 aA aB b0 b1 b2 b3 b8 b9 bA bB
+ simd16scalar temp1 = _simd16_permute2f128_ps(a[i], b[i], 0xDD); // (3 1 3 1) = 11 01 11 01 // a4 a5 a6 a7 aC aD aE aF b4 b5 b6 b7 bC bD bE bF
+
+ v0[i] = _simd16_shuffle_ps(temp0, temp1, _MM_SHUFFLE(0, 0, 0, 0)); // a0 a0 a4 a4 a8 a8 aC aC b0 b0 b4 b4 b8 b8 bC bC
+ v1[i] = _simd16_shuffle_ps(temp0, temp1, _MM_SHUFFLE(2, 1, 2, 1)); // a1 a2 a5 a6 a9 aA aD aE b1 b2 b6 b6 b9 bA bD bE
+ v2[i] = _simd16_shuffle_ps(temp0, temp1, _MM_SHUFFLE(3, 2, 3, 2)); // a2 a3 a6 a7 aA aB aE aF b2 b3 b6 b7 bA bB bE bF
+ }
+
+ SetNextPaState_simd16(pa, PaQuadList0_simd16, PaQuadListSingle0, 0, KNOB_SIMD16_WIDTH, true);
+ return true;
+}
+
+#endif
void PaQuadListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[])
{
- simdvector& a = PaGetSimdVector(pa, 0, slot);
- simdvector& b = PaGetSimdVector(pa, 1, slot);
+#if USE_SIMD16_FRONTEND
+ const simd16vector &a = PaGetSimdVector_simd16(pa, 0, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, 1, slot);
+
+ if (pa.useAlternateOffset)
+ {
+ primIndex += KNOB_SIMD_WIDTH;
+ }
switch (primIndex)
{
@@ -688,49 +1384,145 @@ void PaQuadListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m1
verts[1] = swizzleLane1(a);
verts[2] = swizzleLane2(a);
break;
-
case 1:
// triangle 1 - 0 2 3
verts[0] = swizzleLane0(a);
verts[1] = swizzleLane2(a);
verts[2] = swizzleLane3(a);
break;
-
case 2:
// triangle 2 - 4 5 6
verts[0] = swizzleLane4(a);
verts[1] = swizzleLane5(a);
verts[2] = swizzleLane6(a);
break;
-
case 3:
// triangle 3 - 4 6 7
verts[0] = swizzleLane4(a);
verts[1] = swizzleLane6(a);
verts[2] = swizzleLane7(a);
break;
+ case 4:
+ // triangle 4 - 8 9 A
+ verts[0] = swizzleLane8(a);
+ verts[1] = swizzleLane9(a);
+ verts[2] = swizzleLaneA(a);
+ break;
+ case 5:
+ // triangle 5 - 8 A B
+ verts[0] = swizzleLane8(a);
+ verts[1] = swizzleLaneA(a);
+ verts[2] = swizzleLaneB(a);
+ break;
+ case 6:
+ // triangle 6 - C D E
+ verts[0] = swizzleLaneC(a);
+ verts[1] = swizzleLaneD(a);
+ verts[2] = swizzleLaneE(a);
+ break;
+ case 7:
+ // triangle 7 - C E F
+ verts[0] = swizzleLaneC(a);
+ verts[1] = swizzleLaneE(a);
+ verts[2] = swizzleLaneF(a);
+ break;
+ case 8:
+ // triangle 0 - 0 1 2
+ verts[0] = swizzleLane0(b);
+ verts[1] = swizzleLane1(b);
+ verts[2] = swizzleLane2(b);
+ break;
+ case 9:
+ // triangle 1 - 0 2 3
+ verts[0] = swizzleLane0(b);
+ verts[1] = swizzleLane2(b);
+ verts[2] = swizzleLane3(b);
+ break;
+ case 10:
+ // triangle 2 - 4 5 6
+ verts[0] = swizzleLane4(b);
+ verts[1] = swizzleLane5(b);
+ verts[2] = swizzleLane6(b);
+ break;
+ case 11:
+ // triangle 3 - 4 6 7
+ verts[0] = swizzleLane4(b);
+ verts[1] = swizzleLane6(b);
+ verts[2] = swizzleLane7(b);
+ break;
+ case 12:
+ // triangle 4 - 8 9 A
+ verts[0] = swizzleLane8(b);
+ verts[1] = swizzleLane9(b);
+ verts[2] = swizzleLaneA(b);
+ break;
+ case 13:
+ // triangle 5 - 8 A B
+ verts[0] = swizzleLane8(b);
+ verts[1] = swizzleLaneA(b);
+ verts[2] = swizzleLaneB(b);
+ break;
+ case 14:
+ // triangle 6 - C D E
+ verts[0] = swizzleLaneC(b);
+ verts[1] = swizzleLaneD(b);
+ verts[2] = swizzleLaneE(b);
+ break;
+ case 15:
+ // triangle 7 - C E F
+ verts[0] = swizzleLaneC(b);
+ verts[1] = swizzleLaneE(b);
+ verts[2] = swizzleLaneF(b);
+ break;
+ }
+#else
+ const simdvector &a = PaGetSimdVector(pa, 0, slot);
+ const simdvector &b = PaGetSimdVector(pa, 1, slot);
+ switch (primIndex)
+ {
+ case 0:
+ // triangle 0 - 0 1 2
+ verts[0] = swizzleLane0(a);
+ verts[1] = swizzleLane1(a);
+ verts[2] = swizzleLane2(a);
+ break;
+ case 1:
+ // triangle 1 - 0 2 3
+ verts[0] = swizzleLane0(a);
+ verts[1] = swizzleLane2(a);
+ verts[2] = swizzleLane3(a);
+ break;
+ case 2:
+ // triangle 2 - 4 5 6
+ verts[0] = swizzleLane4(a);
+ verts[1] = swizzleLane5(a);
+ verts[2] = swizzleLane6(a);
+ break;
+ case 3:
+ // triangle 3 - 4 6 7
+ verts[0] = swizzleLane4(a);
+ verts[1] = swizzleLane6(a);
+ verts[2] = swizzleLane7(a);
+ break;
case 4:
// triangle 4 - 8 9 10 (0 1 2)
verts[0] = swizzleLane0(b);
verts[1] = swizzleLane1(b);
verts[2] = swizzleLane2(b);
break;
-
case 5:
// triangle 1 - 0 2 3
verts[0] = swizzleLane0(b);
verts[1] = swizzleLane2(b);
verts[2] = swizzleLane3(b);
break;
-
case 6:
// triangle 2 - 4 5 6
verts[0] = swizzleLane4(b);
verts[1] = swizzleLane5(b);
verts[2] = swizzleLane6(b);
break;
-
case 7:
// triangle 3 - 4 6 7
verts[0] = swizzleLane4(b);
@@ -738,16 +1530,7 @@ void PaQuadListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m1
verts[2] = swizzleLane7(b);
break;
}
-}
-
-void PaLineLoopSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t lineIndex, __m128 verts[])
-{
- PaLineStripSingle0(pa, slot, lineIndex, verts);
-
- if (pa.numPrimsComplete + lineIndex == pa.numPrims - 1) {
- simdvector &start = PaGetSimdVector(pa, pa.first, slot);
- verts[1] = swizzleLane0(start);
- }
+#endif
}
bool PaLineLoop0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
@@ -760,14 +1543,40 @@ bool PaLineLoop1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
{
PaLineStrip1(pa, slot, verts);
- if (pa.numPrimsComplete + KNOB_SIMD_WIDTH > pa.numPrims - 1) {
+ if (pa.numPrimsComplete + KNOB_SIMD_WIDTH > pa.numPrims - 1)
+ {
// loop reconnect now
- int lane = pa.numPrims - pa.numPrimsComplete - 1;
- simdvector &start = PaGetSimdVector(pa, pa.first, slot);
- for (int i = 0; i < 4; i++) {
- float *startVtx = (float *)&(start[i]);
+ const int lane = pa.numPrims - pa.numPrimsComplete - 1;
+
+#if USE_SIMD16_FRONTEND
+ simdvector first;
+
+ const simd16vector &first_16 = PaGetSimdVector_simd16(pa, pa.first, slot);
+
+ if (!pa.useAlternateOffset)
+ {
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ first[i] = _simd16_extract_ps(first_16[i], 0);
+ }
+ }
+ else
+ {
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ first[i] = _simd16_extract_ps(first_16[i], 1);
+ }
+ }
+
+#else
+ simdvector &first = PaGetSimdVector(pa, pa.first, slot);
+
+#endif
+ for (int i = 0; i < 4; i++)
+ {
+ float *firstVtx = (float *)&(first[i]);
float *targetVtx = (float *)&(verts[1][i]);
- targetVtx[lane] = startVtx[0];
+ targetVtx[lane] = firstVtx[0];
}
}
@@ -775,6 +1584,54 @@ bool PaLineLoop1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
return true;
}
+#if ENABLE_AVX512_SIMD16
+bool PaLineLoop0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ SetNextPaState_simd16(pa, PaLineLoop1_simd16, PaLineLoopSingle0);
+ return false;
+}
+
+bool PaLineLoop1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ PaLineStrip1_simd16(pa, slot, verts);
+
+ if (pa.numPrimsComplete + KNOB_SIMD16_WIDTH > pa.numPrims - 1)
+ {
+ // loop reconnect now
+ const int lane = pa.numPrims - pa.numPrimsComplete - 1;
+
+ const simd16vector &first = PaGetSimdVector_simd16(pa, pa.first, slot);
+
+ for (int i = 0; i < 4; i++)
+ {
+ float *firstVtx = (float *)&(first[i]);
+ float *targetVtx = (float *)&(verts[1][i]);
+ targetVtx[lane] = firstVtx[0];
+ }
+ }
+
+ SetNextPaState_simd16(pa, PaLineLoop1_simd16, PaLineLoopSingle0, 0, KNOB_SIMD16_WIDTH);
+ return true;
+}
+
+#endif
+void PaLineLoopSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[])
+{
+ PaLineStripSingle0(pa, slot, primIndex, verts);
+
+ if (pa.numPrimsComplete + primIndex == pa.numPrims - 1)
+ {
+#if USE_SIMD16_FRONTEND
+ const simd16vector &first = PaGetSimdVector_simd16(pa, pa.first, slot);
+
+ verts[1] = swizzleLane0(first);
+#else
+ const simdvector &first = PaGetSimdVector(pa, pa.first, slot);
+
+ verts[1] = swizzleLane0(first);
+#endif
+ }
+}
bool PaLineList0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
{
@@ -784,8 +1641,36 @@ bool PaLineList0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
bool PaLineList1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
{
- simdvector& a = PaGetSimdVector(pa, 0, slot);
- simdvector& b = PaGetSimdVector(pa, 1, slot);
+#if USE_SIMD16_FRONTEND
+ simdvector a;
+ simdvector b;
+
+ if (!pa.useAlternateOffset)
+ {
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
+ }
+ }
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(b_16[i], 0);
+ b[i] = _simd16_extract_ps(b_16[i], 1);
+ }
+ }
+
+#else
+ simdvector &a = PaGetSimdVector(pa, 0, slot);
+ simdvector &b = PaGetSimdVector(pa, 1, slot);
+
+#endif
/// @todo: verify provoking vertex is correct
// Line list 0 1 2 3 4 5 6 7
// 8 9 10 11 12 13 14 15
@@ -811,10 +1696,120 @@ bool PaLineList1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
return true;
}
+#if ENABLE_AVX512_SIMD16
+bool PaLineList0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ SetNextPaState_simd16(pa, PaLineList1_simd16, PaLineListSingle0);
+ return false; // Not enough vertices to assemble 16 lines
+}
+
+bool PaLineList1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ const simd16vector &a = PaGetSimdVector_simd16(pa, 0, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, 1, slot);
+
+ simd16vector &v0 = verts[0];
+ simd16vector &v1 = verts[1];
+
+ // v0 -> a0 a2 a4 a6 a8 aA aC aE b0 b2 b4 b6 b8 bA bC bE
+ // v1 -> a1 a3 a5 a7 a9 aB aD aF b1 b3 b4 b7 b9 bB bD bF
+
+ // for simd16 x, y, z, and w
+ for (int i = 0; i < 4; i += 1)
+ {
+ simd16scalar temp0 = _simd16_permute2f128_ps(a[i], b[i], 0x88); // (2 0 2 0) 10 00 10 00 // a0 a1 a2 a3 a8 a9 aA aB b0 b1 b2 b3 b9 b9 bA bB
+ simd16scalar temp1 = _simd16_permute2f128_ps(a[i], b[i], 0xDD); // (3 1 3 1) 11 01 11 01 // a4 a5 a6 a7 aC aD aE aF b4 b5 b6 b7 bC bD bE bF
+
+ v0[i] = _simd16_shuffle_ps(temp0, temp1, _MM_SHUFFLE(2, 0, 2, 0)); // a0 a2 a4 a6 a8 aA aC aE b0 b2 b4 b6 b8 bA bC bE
+ v1[i] = _simd16_shuffle_ps(temp0, temp1, _MM_SHUFFLE(3, 1, 3, 1)); // a1 a3 a5 a7 a9 aB aD aF b1 b3 b5 b7 b9 bB bD bF
+ }
+
+ SetNextPaState_simd16(pa, PaLineList0_simd16, PaLineListSingle0, 0, KNOB_SIMD16_WIDTH, true);
+ return true;
+}
+
+#endif
void PaLineListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[])
{
- simdvector &a = PaGetSimdVector(pa, pa.prev, slot);
- simdvector &b = PaGetSimdVector(pa, pa.cur, slot);
+#if USE_SIMD16_FRONTEND
+ const simd16vector &a = PaGetSimdVector_simd16(pa, pa.prev, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ if (pa.useAlternateOffset)
+ {
+ primIndex += KNOB_SIMD_WIDTH;
+ }
+
+ switch (primIndex)
+ {
+ case 0:
+ verts[0] = swizzleLane0(a);
+ verts[1] = swizzleLane1(a);
+ break;
+ case 1:
+ verts[0] = swizzleLane2(a);
+ verts[1] = swizzleLane3(a);
+ break;
+ case 2:
+ verts[0] = swizzleLane4(a);
+ verts[1] = swizzleLane5(a);
+ break;
+ case 3:
+ verts[0] = swizzleLane6(a);
+ verts[1] = swizzleLane7(a);
+ break;
+ case 4:
+ verts[0] = swizzleLane8(a);
+ verts[1] = swizzleLane9(a);
+ break;
+ case 5:
+ verts[0] = swizzleLaneA(a);
+ verts[1] = swizzleLaneB(a);
+ break;
+ case 6:
+ verts[0] = swizzleLaneC(a);
+ verts[1] = swizzleLaneD(a);
+ break;
+ case 7:
+ verts[0] = swizzleLaneE(a);
+ verts[1] = swizzleLaneF(a);
+ break;
+ case 8:
+ verts[0] = swizzleLane0(b);
+ verts[1] = swizzleLane1(b);
+ break;
+ case 9:
+ verts[0] = swizzleLane2(b);
+ verts[1] = swizzleLane3(b);
+ break;
+ case 10:
+ verts[0] = swizzleLane4(b);
+ verts[1] = swizzleLane5(b);
+ break;
+ case 11:
+ verts[0] = swizzleLane6(b);
+ verts[1] = swizzleLane7(b);
+ break;
+ case 12:
+ verts[0] = swizzleLane8(b);
+ verts[1] = swizzleLane9(b);
+ break;
+ case 13:
+ verts[0] = swizzleLaneA(b);
+ verts[1] = swizzleLaneB(b);
+ break;
+ case 14:
+ verts[0] = swizzleLaneC(b);
+ verts[1] = swizzleLaneD(b);
+ break;
+ case 15:
+ verts[0] = swizzleLaneE(b);
+ verts[1] = swizzleLaneF(b);
+ break;
+ }
+#else
+ const simdvector &a = PaGetSimdVector(pa, pa.prev, slot);
+ const simdvector &b = PaGetSimdVector(pa, pa.cur, slot);
switch (primIndex)
{
@@ -851,6 +1846,7 @@ void PaLineListSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m1
verts[1] = swizzleLane7(b);
break;
}
+#endif
}
bool PaLineStrip0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
@@ -861,9 +1857,36 @@ bool PaLineStrip0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
bool PaLineStrip1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
{
- simdvector& a = PaGetSimdVector(pa, pa.prev, slot);
- simdvector& b = PaGetSimdVector(pa, pa.cur, slot);
+#if USE_SIMD16_FRONTEND
+ simdvector a;
+ simdvector b;
+
+ if (!pa.useAlternateOffset)
+ {
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, pa.prev, slot);
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
+ }
+ }
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(b_16[i], 0);
+ b[i] = _simd16_extract_ps(b_16[i], 1);
+ }
+ }
+
+#else
+ simdvector &a = PaGetSimdVector(pa, pa.prev, slot);
+ simdvector &b = PaGetSimdVector(pa, pa.cur, slot);
+
+#endif
/// @todo: verify provoking vertex is correct
// Line list 0 1 2 3 4 5 6 7
// 8 9 10 11 12 13 14 15
@@ -891,12 +1914,53 @@ bool PaLineStrip1(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
return true;
}
-void PaLineStripSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t lineIndex, __m128 verts[])
+#if ENABLE_AVX512_SIMD16
+bool PaLineStrip0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ SetNextPaState_simd16(pa, PaLineStrip1_simd16, PaLineStripSingle0);
+ return false; // Not enough vertices to assemble 16 lines
+}
+
+bool PaLineStrip1_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ const simd16scalari perm = _simd16_set_epi32(0, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1);
+
+ const simd16vector &a = PaGetSimdVector_simd16(pa, pa.prev, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ simd16vector &v0 = verts[0];
+ simd16vector &v1 = verts[1];
+
+ // v0 -> a0 a1 a2 a3 a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF
+ // v1 -> a1 a2 a3 a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF b0
+
+ v0 = a; // a0 a1 a2 a3 a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF
+
+ // for simd16 x, y, z, and w
+ for (int i = 0; i < 4; i += 1)
+ {
+ simd16scalar temp = _simd16_blend_ps(a[i], b[i], 0x0001); // b0 a1 a2 a3 a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF
+
+ v1[i] = _simd16_permute_ps(temp, perm); // a1 a2 a3 a4 a5 a6 a7 a8 a9 aA aB aC aD aE aF b0
+ }
+
+ SetNextPaState_simd16(pa, PaLineStrip1_simd16, PaLineStripSingle0, 0, KNOB_SIMD16_WIDTH);
+ return true;
+}
+
+#endif
+void PaLineStripSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[])
{
- simdvector& a = PaGetSimdVector(pa, pa.prev, slot);
- simdvector& b = PaGetSimdVector(pa, pa.cur, slot);
+#if USE_SIMD16_FRONTEND
+ const simd16vector &a = PaGetSimdVector_simd16(pa, pa.prev, slot);
+ const simd16vector &b = PaGetSimdVector_simd16(pa, pa.cur, slot);
- switch (lineIndex)
+ if (pa.useAlternateOffset)
+ {
+ primIndex += KNOB_SIMD_WIDTH;
+ }
+
+ switch (primIndex)
{
case 0:
verts[0] = swizzleLane0(a);
@@ -928,51 +1992,144 @@ void PaLineStripSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t lineIndex, __m
break;
case 7:
verts[0] = swizzleLane7(a);
+ verts[1] = swizzleLane8(a);
+ break;
+ case 8:
+ verts[0] = swizzleLane8(a);
+ verts[1] = swizzleLane9(a);
+ break;
+ case 9:
+ verts[0] = swizzleLane9(a);
+ verts[1] = swizzleLaneA(a);
+ break;
+ case 10:
+ verts[0] = swizzleLaneA(a);
+ verts[1] = swizzleLaneB(a);
+ break;
+ case 11:
+ verts[0] = swizzleLaneB(a);
+ verts[1] = swizzleLaneC(a);
+ break;
+ case 12:
+ verts[0] = swizzleLaneC(a);
+ verts[1] = swizzleLaneD(a);
+ break;
+ case 13:
+ verts[0] = swizzleLaneD(a);
+ verts[1] = swizzleLaneE(a);
+ break;
+ case 14:
+ verts[0] = swizzleLaneE(a);
+ verts[1] = swizzleLaneF(a);
+ break;
+ case 15:
+ verts[0] = swizzleLaneF(a);
verts[1] = swizzleLane0(b);
break;
}
-}
-
-bool PaPoints0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
-{
- simdvector& a = PaGetSimdVector(pa, pa.cur, slot);
-
- verts[0] = a; // points only have 1 vertex.
-
- SetNextPaState(pa, PaPoints0, PaPointsSingle0, 0, KNOB_SIMD_WIDTH, true);
- return true;
-}
+#else
+ const simdvector &a = PaGetSimdVector(pa, pa.prev, slot);
+ const simdvector &b = PaGetSimdVector(pa, pa.cur, slot);
-void PaPointsSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[])
-{
- simdvector &a = PaGetSimdVector(pa, pa.cur, slot);
- switch(primIndex)
+ switch (primIndex)
{
- case 0:
+ case 0:
verts[0] = swizzleLane0(a);
+ verts[1] = swizzleLane1(a);
break;
- case 1:
+ case 1:
verts[0] = swizzleLane1(a);
+ verts[1] = swizzleLane2(a);
break;
- case 2:
+ case 2:
verts[0] = swizzleLane2(a);
+ verts[1] = swizzleLane3(a);
break;
- case 3:
+ case 3:
verts[0] = swizzleLane3(a);
+ verts[1] = swizzleLane4(a);
break;
- case 4:
+ case 4:
verts[0] = swizzleLane4(a);
+ verts[1] = swizzleLane5(a);
break;
- case 5:
+ case 5:
verts[0] = swizzleLane5(a);
+ verts[1] = swizzleLane6(a);
break;
- case 6:
+ case 6:
verts[0] = swizzleLane6(a);
+ verts[1] = swizzleLane7(a);
break;
- case 7:
+ case 7:
verts[0] = swizzleLane7(a);
+ verts[1] = swizzleLane0(b);
break;
}
+#endif
+}
+
+bool PaPoints0(PA_STATE_OPT& pa, uint32_t slot, simdvector verts[])
+{
+#if USE_SIMD16_FRONTEND
+ simdvector a;
+ simdvector b;
+
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ if (!pa.useAlternateOffset)
+ {
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ }
+ }
+ else
+ {
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(a_16[i], 1);
+ }
+ }
+
+#else
+ simdvector &a = PaGetSimdVector(pa, pa.cur, slot);
+
+#endif
+ verts[0] = a; // points only have 1 vertex.
+
+ SetNextPaState(pa, PaPoints0, PaPointsSingle0, 0, KNOB_SIMD_WIDTH, true);
+ return true;
+}
+
+#if ENABLE_AVX512_SIMD16
+bool PaPoints0_simd16(PA_STATE_OPT& pa, uint32_t slot, simd16vector verts[])
+{
+ simd16vector &a = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ verts[0] = a; // points only have 1 vertex.
+
+ SetNextPaState_simd16(pa, PaPoints0_simd16, PaPointsSingle0, 0, KNOB_SIMD16_WIDTH, true);
+ return true;
+}
+
+#endif
+void PaPointsSingle0(PA_STATE_OPT& pa, uint32_t slot, uint32_t primIndex, __m128 verts[])
+{
+#if USE_SIMD16_FRONTEND
+ const simd16vector &a = PaGetSimdVector_simd16(pa, pa.cur, slot);
+
+ if (pa.useAlternateOffset)
+ {
+ primIndex += KNOB_SIMD_WIDTH;
+ }
+
+ verts[0] = swizzleLaneN(a, primIndex);
+#else
+ const simdvector &a = PaGetSimdVector(pa, pa.cur, slot);
+
+ verts[0] = swizzleLaneN(a, primIndex);
+#endif
}
//////////////////////////////////////////////////////////////////////////
@@ -1016,9 +2173,36 @@ bool PaRectList1(
simdvector verts[])
{
// SIMD vectors a and b are the last two vertical outputs from the vertex shader.
- simdvector& a = PaGetSimdVector(pa, 0, slot); // a[] = { v0, v1, v2, v3, v4, v5, v6, v7 }
- simdvector& b = PaGetSimdVector(pa, 1, slot); // b[] = { v8, v9, v10, v11, v12, v13, v14, v15 }
+#if USE_SIMD16_FRONTEND
+ simdvector a;
+ simdvector b;
+
+ if (!pa.useAlternateOffset)
+ {
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
+ }
+ }
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
+ {
+ a[i] = _simd16_extract_ps(b_16[i], 0);
+ b[i] = _simd16_extract_ps(b_16[i], 1);;
+ }
+ }
+
+#else
+ simdvector &a = PaGetSimdVector(pa, 0, slot); // a[] = { v0, v1, v2, v3, v4, v5, v6, v7 }
+ simdvector &b = PaGetSimdVector(pa, 1, slot); // b[] = { v8, v9, v10, v11, v12, v13, v14, v15 }
+#endif
__m256 tmp0, tmp1, tmp2;
// Loop over each component in the simdvector.
@@ -1116,23 +2300,27 @@ bool PaRectList1_simd16(
uint32_t slot,
simd16vector verts[])
{
- const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot); // a[] = { v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15 }
- const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot); // b[] = { v16...but not used by this implementation.. }
-
simdvector a;
simdvector b;
- for (uint32_t i = 0; i < 4; i += 1)
+ if (!pa.useAlternateOffset)
{
- if (pa.useAlternateOffset)
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot); // a[] = { v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15 }
+
+ for (uint32_t i = 0; i < 4; i += 1)
{
- a[i] = b_16[i].lo;
- b[i] = b_16[i].hi;
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
}
- else
+ }
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot); // b[] = { v16...but not used by this implementation.. }
+
+ for (uint32_t i = 0; i < 4; i += 1)
{
- a[i] = a_16[i].lo;
- b[i] = a_16[i].hi;
+ a[i] = _simd16_extract_ps(b_16[i], 0);
+ b[i] = _simd16_extract_ps(b_16[i], 1);
}
}
@@ -1217,23 +2405,27 @@ void PaRectListSingle0(
// hold at least 8 triangles worth of data. We want to assemble a single
// triangle with data in horizontal form.
#if USE_SIMD16_FRONTEND
- const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot);
- const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
-
simdvector a;
simdvector b;
- for (uint32_t i = 0; i < 4; i += 1)
+ if (!pa.useAlternateOffset)
{
- if (pa.useAlternateOffset)
+ const simd16vector &a_16 = PaGetSimdVector_simd16(pa, 0, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
{
- a[i] = b_16[i].lo;
- b[i] = b_16[i].hi;
+ a[i] = _simd16_extract_ps(a_16[i], 0);
+ b[i] = _simd16_extract_ps(a_16[i], 1);
}
- else
+}
+ else
+ {
+ const simd16vector &b_16 = PaGetSimdVector_simd16(pa, 1, slot);
+
+ for (uint32_t i = 0; i < 4; i += 1)
{
- a[i] = a_16[i].lo;
- b[i] = a_16[i].hi;
+ a[i] = _simd16_extract_ps(b_16[i], 0);
+ b[i] = _simd16_extract_ps(b_16[i], 1);;
}
}
@@ -1287,34 +2479,57 @@ PA_STATE_OPT::PA_STATE_OPT(DRAW_CONTEXT *in_pDC, uint32_t in_numPrims, uint8_t*
break;
case TOP_TRIANGLE_STRIP:
this->pfnPaFunc = PaTriStrip0;
+#if ENABLE_AVX512_SIMD16
+ this->pfnPaFunc_simd16 = PaTriStrip0_simd16;
+#endif
break;
case TOP_TRIANGLE_FAN:
this->pfnPaFunc = PaTriFan0;
+#if ENABLE_AVX512_SIMD16
+ this->pfnPaFunc_simd16 = PaTriFan0_simd16;
+#endif
break;
case TOP_QUAD_LIST:
this->pfnPaFunc = PaQuadList0;
+#if ENABLE_AVX512_SIMD16
+ this->pfnPaFunc_simd16 = PaQuadList0_simd16;
+#endif
this->numPrims = in_numPrims * 2; // Convert quad primitives into triangles
break;
case TOP_QUAD_STRIP:
// quad strip pattern when decomposed into triangles is the same as verts strips
this->pfnPaFunc = PaTriStrip0;
+#if ENABLE_AVX512_SIMD16
+ this->pfnPaFunc_simd16 = PaTriStrip0_simd16;
+#endif
this->numPrims = in_numPrims * 2; // Convert quad primitives into triangles
break;
case TOP_LINE_LIST:
this->pfnPaFunc = PaLineList0;
+#if ENABLE_AVX512_SIMD16
+ this->pfnPaFunc_simd16 = PaLineList0_simd16;
+#endif
this->numPrims = in_numPrims;
break;
case TOP_LINE_STRIP:
this->pfnPaFunc = PaLineStrip0;
+#if ENABLE_AVX512_SIMD16
+ this->pfnPaFunc_simd16 = PaLineStrip0_simd16;
+#endif
this->numPrims = in_numPrims;
break;
case TOP_LINE_LOOP:
this->pfnPaFunc = PaLineLoop0;
+#if ENABLE_AVX512_SIMD16
+ this->pfnPaFunc_simd16 = PaLineLoop0_simd16;
+#endif
this->numPrims = in_numPrims;
break;
case TOP_POINT_LIST:
- // use point binner and rasterizer if supported
this->pfnPaFunc = PaPoints0;
+#if ENABLE_AVX512_SIMD16
+ this->pfnPaFunc_simd16 = PaPoints0_simd16;
+#endif
this->numPrims = in_numPrims;
break;
case TOP_RECT_LIST: