[Mesa-dev] [PATCH 03/12] swr: [rasterizer core] SIMD16 Frontend WIP - Clipper
Tim Rowley
timothy.o.rowley at intel.com
Mon Apr 10 16:45:24 UTC 2017
Implement widened clipper for SIMD16.
---
.../drivers/swr/rasterizer/common/simd16intrin.h | 41 +-
src/gallium/drivers/swr/rasterizer/core/binner.cpp | 17 +-
src/gallium/drivers/swr/rasterizer/core/clip.cpp | 91 +-
src/gallium/drivers/swr/rasterizer/core/clip.h | 1027 ++++++++++++++++++--
src/gallium/drivers/swr/rasterizer/core/frontend.h | 29 +-
5 files changed, 1011 insertions(+), 194 deletions(-)
diff --git a/src/gallium/drivers/swr/rasterizer/common/simd16intrin.h b/src/gallium/drivers/swr/rasterizer/common/simd16intrin.h
index e5c34c2..fee50d0 100644
--- a/src/gallium/drivers/swr/rasterizer/common/simd16intrin.h
+++ b/src/gallium/drivers/swr/rasterizer/common/simd16intrin.h
@@ -436,7 +436,7 @@ INLINE simd16scalar _simd16_cvtepi32_ps(simd16scalari a)
}
template <int comp>
-INLINE simd16scalar _simd16_cmp_ps(simd16scalar a, simd16scalar b)
+INLINE simd16scalar _simd16_cmp_ps_temp(simd16scalar a, simd16scalar b)
{
simd16scalar result;
@@ -446,12 +446,14 @@ INLINE simd16scalar _simd16_cmp_ps(simd16scalar a, simd16scalar b)
return result;
}
-#define _simd16_cmplt_ps(a, b) _simd16_cmp_ps<_CMP_LT_OQ>(a, b)
-#define _simd16_cmpgt_ps(a, b) _simd16_cmp_ps<_CMP_GT_OQ>(a, b)
-#define _simd16_cmpneq_ps(a, b) _simd16_cmp_ps<_CMP_NEQ_OQ>(a, b)
-#define _simd16_cmpeq_ps(a, b) _simd16_cmp_ps<_CMP_EQ_OQ>(a, b)
-#define _simd16_cmpge_ps(a, b) _simd16_cmp_ps<_CMP_GE_OQ>(a, b)
-#define _simd16_cmple_ps(a, b) _simd16_cmp_ps<_CMP_LE_OQ>(a, b)
+#define _simd16_cmp_ps(a, b, comp) _simd16_cmp_ps_temp<comp>(a, b)
+
+#define _simd16_cmplt_ps(a, b) _simd16_cmp_ps(a, b, _CMP_LT_OQ)
+#define _simd16_cmpgt_ps(a, b) _simd16_cmp_ps(a, b, _CMP_GT_OQ)
+#define _simd16_cmpneq_ps(a, b) _simd16_cmp_ps(a, b, _CMP_NEQ_OQ)
+#define _simd16_cmpeq_ps(a, b) _simd16_cmp_ps(a, b, _CMP_EQ_OQ)
+#define _simd16_cmpge_ps(a, b) _simd16_cmp_ps(a, b, _CMP_GE_OQ)
+#define _simd16_cmple_ps(a, b) _simd16_cmp_ps(a, b, _CMP_LE_OQ)
SIMD16_EMU_AVX512_2(simd16scalar, _simd16_and_ps, _simd_and_ps)
SIMD16_EMU_AVX512_2(simd16scalar, _simd16_andnot_ps, _simd_andnot_ps)
@@ -525,8 +527,8 @@ SIMD16_EMU_AVX512_2(simd16scalari, _simd16_cmplt_epi32, _simd_cmplt_epi32)
INLINE int _simd16_testz_ps(simd16scalar a, simd16scalar b)
{
- int lo = _mm256_testz_ps(a.lo, b.lo);
- int hi = _mm256_testz_ps(a.hi, b.hi);
+ int lo = _simd_testz_ps(a.lo, b.lo);
+ int hi = _simd_testz_ps(a.hi, b.hi);
return lo & hi;
}
@@ -912,19 +914,19 @@ INLINE int _simd16_movemask_epi8(simd16scalari a)
template <int comp>
INLINE simd16scalar _simd16_cmp_ps_temp(simd16scalar a, simd16scalar b)
{
- simd16mask k = _mm512_cmpeq_ps_mask(a, b);
+ simd16mask k = _mm512_cmp_ps_mask(a, b, comp);
return _mm512_castsi512_ps(_mm512_mask_blend_epi32(k, _mm512_setzero_epi32(), _mm512_set1_epi32(0xFFFFFFFF)));
}
#define _simd16_cmp_ps(a, b, comp) _simd16_cmp_ps_temp<comp>(a, b)
-#define _simd16_cmplt_ps(a, b) _simd16_cmp_ps<_CMP_LT_OQ>(a, b)
-#define _simd16_cmpgt_ps(a, b) _simd16_cmp_ps<_CMP_GT_OQ>(a, b)
-#define _simd16_cmpneq_ps(a, b) _simd16_cmp_ps<_CMP_NEQ_OQ>(a, b)
-#define _simd16_cmpeq_ps(a, b) _simd16_cmp_ps<_CMP_EQ_OQ>(a, b)
-#define _simd16_cmpge_ps(a, b) _simd16_cmp_ps<_CMP_GE_OQ>(a, b)
-#define _simd16_cmple_ps(a, b) _simd16_cmp_ps<_CMP_LE_OQ>(a, b)
+#define _simd16_cmplt_ps(a, b) _simd16_cmp_ps(a, b, _CMP_LT_OQ)
+#define _simd16_cmpgt_ps(a, b) _simd16_cmp_ps(a, b, _CMP_GT_OQ)
+#define _simd16_cmpneq_ps(a, b) _simd16_cmp_ps(a, b, _CMP_NEQ_OQ)
+#define _simd16_cmpeq_ps(a, b) _simd16_cmp_ps(a, b, _CMP_EQ_OQ)
+#define _simd16_cmpge_ps(a, b) _simd16_cmp_ps(a, b, _CMP_GE_OQ)
+#define _simd16_cmple_ps(a, b) _simd16_cmp_ps(a, b, _CMP_LE_OQ)
#define _simd16_castsi_ps _mm512_castsi512_ps
#define _simd16_castps_si _mm512_castps_si512
@@ -982,17 +984,14 @@ INLINE simd16scalari _simd16_cmplt_epi32(simd16scalari a, simd16scalari b)
return _mm512_mask_blend_epi32(k, _mm512_setzero_epi32(), _mm512_set1_epi32(0xFFFFFFFF));
}
-#if 0
INLINE int _simd16_testz_ps(simd16scalar a, simd16scalar b)
{
- int lo = _mm256_testz_ps(a.lo, b.lo);
- int hi = _mm256_testz_ps(a.hi, b.hi);
+ int lo = _simd_testz_ps(_simd16_extract_ps(a, 0), _simd16_extract_ps(b, 0));
+ int hi = _simd_testz_ps(_simd16_extract_ps(a, 1), _simd16_extract_ps(b, 1));
return lo & hi;
}
-#endif
-
#define _simd16_unpacklo_ps _mm512_unpacklo_ps
#define _simd16_unpackhi_ps _mm512_unpackhi_ps
#define _simd16_unpacklo_pd _mm512_unpacklo_pd
diff --git a/src/gallium/drivers/swr/rasterizer/core/binner.cpp b/src/gallium/drivers/swr/rasterizer/core/binner.cpp
index eb1f20b..239c497 100644
--- a/src/gallium/drivers/swr/rasterizer/core/binner.cpp
+++ b/src/gallium/drivers/swr/rasterizer/core/binner.cpp
@@ -1007,16 +1007,6 @@ endBinTriangles:
}
#if USE_SIMD16_FRONTEND
-inline uint32_t GetPrimMaskLo(uint32_t primMask)
-{
- return primMask & 255;
-}
-
-inline uint32_t GetPrimMaskHi(uint32_t primMask)
-{
- return (primMask >> 8) & 255;
-}
-
template <typename CT>
void BinTriangles_simd16(
DRAW_CONTEXT *pDC,
@@ -1105,8 +1095,8 @@ void BinTriangles_simd16(
calcDeterminantIntVertical(vAi, vBi, vDet);
// cull zero area
- simd16mask maskLo = _simd16_movemask_pd(_simd16_castsi_pd(_simd16_cmpeq_epi64(vDet[0], _simd16_setzero_si())));
- simd16mask maskHi = _simd16_movemask_pd(_simd16_castsi_pd(_simd16_cmpeq_epi64(vDet[1], _simd16_setzero_si())));
+ uint32_t maskLo = _simd16_movemask_pd(_simd16_castsi_pd(_simd16_cmpeq_epi64(vDet[0], _simd16_setzero_si())));
+ uint32_t maskHi = _simd16_movemask_pd(_simd16_castsi_pd(_simd16_cmpeq_epi64(vDet[1], _simd16_setzero_si())));
uint32_t cullZeroAreaMask = maskLo | (maskHi << (KNOB_SIMD16_WIDTH / 2));
@@ -1133,7 +1123,6 @@ void BinTriangles_simd16(
maskLo = _simd16_movemask_pd(_simd16_castsi_pd(_simd16_cmpgt_epi64(_simd16_setzero_si(), vDet[0])));
maskHi = _simd16_movemask_pd(_simd16_castsi_pd(_simd16_cmpgt_epi64(_simd16_setzero_si(), vDet[1])));
}
-
frontWindingTris = maskLo | (maskHi << (KNOB_SIMD16_WIDTH / 2));
// cull
@@ -2756,7 +2745,7 @@ void BinLines_simd16(
{
viewportTransform<2>(prim, state.vpMatrices);
}
-}
+ }
// adjust for pixel center location
simd16scalar offset = g_pixelOffsets_simd16[rastState.pixelLocation];
diff --git a/src/gallium/drivers/swr/rasterizer/core/clip.cpp b/src/gallium/drivers/swr/rasterizer/core/clip.cpp
index 6fc7e16..6a5bf6c 100644
--- a/src/gallium/drivers/swr/rasterizer/core/clip.cpp
+++ b/src/gallium/drivers/swr/rasterizer/core/clip.cpp
@@ -33,6 +33,9 @@
// Temp storage used by the clipper
THREAD simdvertex tlsTempVertices[7];
+#if USE_SIMD16_FRONTEND
+THREAD simd16vertex tlsTempVertices_simd16[7];
+#endif
float ComputeInterpFactor(float boundaryCoord0, float boundaryCoord1)
{
@@ -185,16 +188,6 @@ void ClipPoints(DRAW_CONTEXT *pDC, PA_STATE& pa, uint32_t workerId, simdvector p
}
#if USE_SIMD16_FRONTEND
-inline uint32_t GetPrimMaskLo(uint32_t primMask)
-{
- return primMask & 255;
-}
-
-inline uint32_t GetPrimMaskHi(uint32_t primMask)
-{
- return (primMask >> 8) & 255;
-}
-
void ClipTriangles_simd16(DRAW_CONTEXT *pDC, PA_STATE& pa, uint32_t workerId, simd16vector prims[], uint32_t primMask, simd16scalari primId, simd16scalari viewportIdx)
{
SWR_CONTEXT *pContext = pDC->pContext;
@@ -204,32 +197,8 @@ void ClipTriangles_simd16(DRAW_CONTEXT *pDC, PA_STATE& pa, uint32_t workerId, si
Clipper<VERTS_PER_PRIM> clipper(workerId, pDC);
- simdvector verts[VERTS_PER_PRIM];
-
- for (uint32_t i = 0; i < VERTS_PER_PRIM; i += 1)
- {
- for (uint32_t j = 0; j < 4; j += 1)
- {
- verts[i][j] = _simd16_extract_ps(prims[i][j], 0);
- }
- }
-
pa.useAlternateOffset = false;
- clipper.ExecuteStage(pa, verts, GetPrimMaskLo(primMask), _simd16_extract_si(primId, 0), _simd16_extract_si(viewportIdx, 0));
-
- if (GetPrimMaskHi(primMask))
- {
- for (uint32_t i = 0; i < VERTS_PER_PRIM; i += 1)
- {
- for (uint32_t j = 0; j < 4; j += 1)
- {
- verts[i][j] = _simd16_extract_ps(prims[i][j], 1);
- }
- }
-
- pa.useAlternateOffset = true;
- clipper.ExecuteStage(pa, verts, GetPrimMaskHi(primMask), _simd16_extract_si(primId, 1), _simd16_extract_si(viewportIdx, 1));
- }
+ clipper.ExecuteStage(pa, prims, primMask, primId, viewportIdx);
AR_END(FEClipTriangles, 1);
}
@@ -243,32 +212,8 @@ void ClipLines_simd16(DRAW_CONTEXT *pDC, PA_STATE& pa, uint32_t workerId, simd16
Clipper<VERTS_PER_PRIM> clipper(workerId, pDC);
- simdvector verts[VERTS_PER_PRIM];
-
- for (uint32_t i = 0; i < VERTS_PER_PRIM; i += 1)
- {
- for (uint32_t j = 0; j < 4; j += 1)
- {
- verts[i][j] = _simd16_extract_ps(prims[i][j], 0);
- }
- }
-
pa.useAlternateOffset = false;
- clipper.ExecuteStage(pa, verts, GetPrimMaskLo(primMask), _simd16_extract_si(primId, 0), _simd16_extract_si(viewportIdx, 0));
-
- if (GetPrimMaskHi(primMask))
- {
- for (uint32_t i = 0; i < VERTS_PER_PRIM; i += 1)
- {
- for (uint32_t j = 0; j < 4; j += 1)
- {
- verts[i][j] = _simd16_extract_ps(prims[i][j], 1);
- }
- }
-
- pa.useAlternateOffset = true;
- clipper.ExecuteStage(pa, verts, GetPrimMaskHi(primMask), _simd16_extract_si(primId, 1), _simd16_extract_si(viewportIdx, 1));
- }
+ clipper.ExecuteStage(pa, prims, primMask, primId, viewportIdx);
AR_END(FEClipLines, 1);
}
@@ -282,32 +227,8 @@ void ClipPoints_simd16(DRAW_CONTEXT *pDC, PA_STATE& pa, uint32_t workerId, simd1
Clipper<VERTS_PER_PRIM> clipper(workerId, pDC);
- simdvector verts[VERTS_PER_PRIM];
-
- for (uint32_t i = 0; i < VERTS_PER_PRIM; i += 1)
- {
- for (uint32_t j = 0; j < 4; j += 1)
- {
- verts[i][j] = _simd16_extract_ps(prims[i][j], 0);
- }
- }
-
pa.useAlternateOffset = false;
- clipper.ExecuteStage(pa, verts, GetPrimMaskLo(primMask), _simd16_extract_si(primId, 0), _simd16_extract_si(viewportIdx, 0));
-
- if (GetPrimMaskHi(primMask))
- {
- for (uint32_t i = 0; i < VERTS_PER_PRIM; i += 1)
- {
- for (uint32_t j = 0; j < 4; j += 1)
- {
- verts[i][j] = _simd16_extract_ps(prims[i][j], 1);
- }
- }
-
- pa.useAlternateOffset = true;
- clipper.ExecuteStage(pa, verts, GetPrimMaskHi(primMask), _simd16_extract_si(primId, 1), _simd16_extract_si(viewportIdx, 1));
- }
+ clipper.ExecuteStage(pa, prims, primMask, primId, viewportIdx);
AR_END(FEClipPoints, 1);
}
diff --git a/src/gallium/drivers/swr/rasterizer/core/clip.h b/src/gallium/drivers/swr/rasterizer/core/clip.h
index 017f5e7..39f29c1 100644
--- a/src/gallium/drivers/swr/rasterizer/core/clip.h
+++ b/src/gallium/drivers/swr/rasterizer/core/clip.h
@@ -34,6 +34,9 @@
// Temp storage used by the clipper
extern THREAD simdvertex tlsTempVertices[7];
+#if USE_SIMD16_FRONTEND
+extern THREAD simd16vertex tlsTempVertices_simd16[7];
+#endif
enum SWR_CLIPCODES
{
@@ -126,6 +129,76 @@ void ComputeClipCodes(const API_STATE& state, const simdvector& vertex, simdscal
clipCodes = _simd_or_ps(clipCodes, _simd_and_ps(vRes, _simd_castsi_ps(_simd_set1_epi32(GUARDBAND_BOTTOM))));
}
+#if USE_SIMD16_FRONTEND
+INLINE
+void ComputeClipCodes(const API_STATE& state, const simd16vector& vertex, simd16scalar& clipCodes, simd16scalari viewportIndexes)
+{
+ clipCodes = _simd16_setzero_ps();
+
+ // -w
+ simd16scalar vNegW = _simd16_mul_ps(vertex.w, _simd16_set1_ps(-1.0f));
+
+ // FRUSTUM_LEFT
+ simd16scalar vRes = _simd16_cmplt_ps(vertex.x, vNegW);
+ clipCodes = _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(FRUSTUM_LEFT)));
+
+ // FRUSTUM_TOP
+ vRes = _simd16_cmplt_ps(vertex.y, vNegW);
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(FRUSTUM_TOP))));
+
+ // FRUSTUM_RIGHT
+ vRes = _simd16_cmpgt_ps(vertex.x, vertex.w);
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(FRUSTUM_RIGHT))));
+
+ // FRUSTUM_BOTTOM
+ vRes = _simd16_cmpgt_ps(vertex.y, vertex.w);
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(FRUSTUM_BOTTOM))));
+
+ if (state.rastState.depthClipEnable)
+ {
+ // FRUSTUM_NEAR
+ // DX clips depth [0..w], GL clips [-w..w]
+ if (state.rastState.clipHalfZ)
+ {
+ vRes = _simd16_cmplt_ps(vertex.z, _simd16_setzero_ps());
+ }
+ else
+ {
+ vRes = _simd16_cmplt_ps(vertex.z, vNegW);
+ }
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(FRUSTUM_NEAR))));
+
+ // FRUSTUM_FAR
+ vRes = _simd16_cmpgt_ps(vertex.z, vertex.w);
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(FRUSTUM_FAR))));
+ }
+
+ // NEGW
+ vRes = _simd16_cmple_ps(vertex.w, _simd16_setzero_ps());
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(NEGW))));
+
+ // GUARDBAND_LEFT
+ simd16scalar gbMult = _simd16_mul_ps(vNegW, _simd16_i32gather_ps(&state.gbState.left[0], viewportIndexes, 4));
+ vRes = _simd16_cmplt_ps(vertex.x, gbMult);
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(GUARDBAND_LEFT))));
+
+ // GUARDBAND_TOP
+ gbMult = _simd16_mul_ps(vNegW, _simd16_i32gather_ps(&state.gbState.top[0], viewportIndexes, 4));
+ vRes = _simd16_cmplt_ps(vertex.y, gbMult);
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(GUARDBAND_TOP))));
+
+ // GUARDBAND_RIGHT
+ gbMult = _simd16_mul_ps(vertex.w, _simd16_i32gather_ps(&state.gbState.right[0], viewportIndexes, 4));
+ vRes = _simd16_cmpgt_ps(vertex.x, gbMult);
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(GUARDBAND_RIGHT))));
+
+ // GUARDBAND_BOTTOM
+ gbMult = _simd16_mul_ps(vertex.w, _simd16_i32gather_ps(&state.gbState.bottom[0], viewportIndexes, 4));
+ vRes = _simd16_cmpgt_ps(vertex.y, gbMult);
+ clipCodes = _simd16_or_ps(clipCodes, _simd16_and_ps(vRes, _simd16_castsi_ps(_simd16_set1_epi32(GUARDBAND_BOTTOM))));
+}
+
+#endif
template<uint32_t NumVertsPerPrim>
class Clipper
{
@@ -144,6 +217,16 @@ public:
}
}
+#if USE_SIMD16_FRONTEND
+ void ComputeClipCodes(simd16vector vertex[], simd16scalari viewportIndexes)
+ {
+ for (uint32_t i = 0; i < NumVertsPerPrim; ++i)
+ {
+ ::ComputeClipCodes(this->state, vertex[i], this->clipCodes_simd16[i], viewportIndexes);
+ }
+ }
+
+#endif
simdscalar ComputeClipCodeIntersection()
{
simdscalar result = this->clipCodes[0];
@@ -154,6 +237,18 @@ public:
return result;
}
+#if USE_SIMD16_FRONTEND
+ simd16scalar ComputeClipCodeIntersection_simd16()
+ {
+ simd16scalar result = this->clipCodes_simd16[0];
+ for (uint32_t i = 1; i < NumVertsPerPrim; ++i)
+ {
+ result = _simd16_and_ps(result, this->clipCodes_simd16[i]);
+ }
+ return result;
+ }
+
+#endif
simdscalar ComputeClipCodeUnion()
{
simdscalar result = this->clipCodes[0];
@@ -164,6 +259,18 @@ public:
return result;
}
+#if USE_SIMD16_FRONTEND
+ simd16scalar ComputeClipCodeUnion_simd16()
+ {
+ simd16scalar result = this->clipCodes_simd16[0];
+ for (uint32_t i = 1; i < NumVertsPerPrim; ++i)
+ {
+ result = _simd16_or_ps(result, this->clipCodes_simd16[i]);
+ }
+ return result;
+ }
+
+#endif
int ComputeNegWMask()
{
simdscalar clipCodeUnion = ComputeClipCodeUnion();
@@ -178,6 +285,15 @@ public:
return _simd_movemask_ps(_simd_cmpneq_ps(clipUnion, _simd_setzero_ps()));
}
+#if USE_SIMD16_FRONTEND
+ int ComputeClipMask_simd16()
+ {
+ simd16scalar clipUnion = ComputeClipCodeUnion_simd16();
+ clipUnion = _simd16_and_ps(clipUnion, _simd16_castsi_ps(_simd16_set1_epi32(GUARDBAND_CLIP_MASK)));
+ return _simd16_movemask_ps(_simd16_cmpneq_ps(clipUnion, _simd16_setzero_ps()));
+ }
+
+#endif
// clipper is responsible for culling any prims with NAN coordinates
int ComputeNaNMask(simdvector prim[])
{
@@ -193,6 +309,22 @@ public:
return _simd_movemask_ps(vNanMask);
}
+#if USE_SIMD16_FRONTEND
+ int ComputeNaNMask(simd16vector prim[])
+ {
+ simd16scalar vNanMask = _simd16_setzero_ps();
+ for (uint32_t e = 0; e < NumVertsPerPrim; ++e)
+ {
+ simd16scalar vNan01 = _simd16_cmp_ps(prim[e].v[0], prim[e].v[1], _CMP_UNORD_Q);
+ vNanMask = _simd16_or_ps(vNanMask, vNan01);
+ simd16scalar vNan23 = _simd16_cmp_ps(prim[e].v[2], prim[e].v[3], _CMP_UNORD_Q);
+ vNanMask = _simd16_or_ps(vNanMask, vNan23);
+ }
+
+ return _simd16_movemask_ps(vNanMask);
+ }
+
+#endif
int ComputeUserClipCullMask(PA_STATE& pa, simdvector prim[])
{
uint8_t cullMask = this->state.rastState.cullDistanceMask;
@@ -258,6 +390,74 @@ public:
return _simd_movemask_ps(vClipCullMask);
}
+#if USE_SIMD16_FRONTEND
+ int ComputeUserClipCullMask(PA_STATE& pa, simd16vector prim[])
+ {
+ uint8_t cullMask = this->state.rastState.cullDistanceMask;
+ simd16scalar vClipCullMask = _simd16_setzero_ps();
+
+ simd16vector vClipCullDistLo[3];
+ simd16vector vClipCullDistHi[3];
+
+ pa.Assemble_simd16(VERTEX_CLIPCULL_DIST_LO_SLOT, vClipCullDistLo);
+ pa.Assemble_simd16(VERTEX_CLIPCULL_DIST_HI_SLOT, vClipCullDistHi);
+
+ DWORD index;
+ while (_BitScanForward(&index, cullMask))
+ {
+ cullMask &= ~(1 << index);
+ uint32_t slot = index >> 2;
+ uint32_t component = index & 0x3;
+
+ simd16scalar vCullMaskElem = _simd16_set1_ps(-1.0f);
+ for (uint32_t e = 0; e < NumVertsPerPrim; ++e)
+ {
+ simd16scalar vCullComp;
+ if (slot == 0)
+ {
+ vCullComp = vClipCullDistLo[e][component];
+ }
+ else
+ {
+ vCullComp = vClipCullDistHi[e][component];
+ }
+
+ // cull if cull distance < 0 || NAN
+ simd16scalar vCull = _simd16_cmp_ps(_simd16_setzero_ps(), vCullComp, _CMP_NLE_UQ);
+ vCullMaskElem = _simd16_and_ps(vCullMaskElem, vCull);
+ }
+ vClipCullMask = _simd16_or_ps(vClipCullMask, vCullMaskElem);
+ }
+
+ // clipper should also discard any primitive with NAN clip distance
+ uint8_t clipMask = this->state.rastState.clipDistanceMask;
+ while (_BitScanForward(&index, clipMask))
+ {
+ clipMask &= ~(1 << index);
+ uint32_t slot = index >> 2;
+ uint32_t component = index & 0x3;
+
+ for (uint32_t e = 0; e < NumVertsPerPrim; ++e)
+ {
+ simd16scalar vClipComp;
+ if (slot == 0)
+ {
+ vClipComp = vClipCullDistLo[e][component];
+ }
+ else
+ {
+ vClipComp = vClipCullDistHi[e][component];
+ }
+
+ simd16scalar vClip = _simd16_cmp_ps(vClipComp, vClipComp, _CMP_UNORD_Q);
+ vClipCullMask = _simd16_or_ps(vClipCullMask, vClip);
+ }
+ }
+
+ return _simd16_movemask_ps(vClipCullMask);
+ }
+
+#endif
// clip SIMD primitives
void ClipSimd(const simdscalar& vPrimMask, const simdscalar& vClipMask, PA_STATE& pa, const simdscalari& vPrimId, const simdscalari& vViewportIdx)
{
@@ -516,91 +716,396 @@ public:
UPDATE_STAT_FE(CPrimitives, numClippedPrims);
}
- // execute the clipper stage
- void ExecuteStage(PA_STATE& pa, simdvector prim[], uint32_t primMask, simdscalari primId, simdscalari viewportIdx)
+#if USE_SIMD16_FRONTEND
+ void ClipSimd(const simd16scalar& vPrimMask, const simd16scalar& vClipMask, PA_STATE& pa, const simd16scalari& vPrimId, const simd16scalari& vViewportIdx)
{
- SWR_ASSERT(pa.pDC != nullptr);
- SWR_CONTEXT* pContext = pa.pDC->pContext;
+ // input/output vertex store for clipper
+ simd16vertex vertices[7]; // maximum 7 verts generated per triangle
- // set up binner based on PA state
- PFN_PROCESS_PRIMS pfnBinner;
- switch (pa.binTopology)
+ LONG constantInterpMask = this->state.backendState.constantInterpolationMask;
+ uint32_t provokingVertex = 0;
+ if (pa.binTopology == TOP_TRIANGLE_FAN)
{
- case TOP_POINT_LIST:
- pfnBinner = BinPoints;
- break;
- case TOP_LINE_LIST:
- case TOP_LINE_STRIP:
- case TOP_LINE_LOOP:
- case TOP_LINE_LIST_ADJ:
- case TOP_LISTSTRIP_ADJ:
- pfnBinner = BinLines;
- break;
- default:
- pfnBinner = GetBinTrianglesFunc((pa.pDC->pState->state.rastState.conservativeRast > 0));
- break;
- };
-
- // update clipper invocations pipeline stat
- uint32_t numInvoc = _mm_popcnt_u32(primMask);
- UPDATE_STAT_FE(CInvocations, numInvoc);
-
- ComputeClipCodes(prim, viewportIdx);
-
- // cull prims with NAN coords
- primMask &= ~ComputeNaNMask(prim);
+ provokingVertex = this->state.frontendState.provokingVertex.triFan;
+ }
+ ///@todo: line topology for wireframe?
- // user cull distance cull
- if (this->state.rastState.cullDistanceMask)
+ // assemble pos
+ simd16vector tmpVector[NumVertsPerPrim];
+ pa.Assemble_simd16(VERTEX_POSITION_SLOT, tmpVector);
+ for (uint32_t i = 0; i < NumVertsPerPrim; ++i)
{
- primMask &= ~ComputeUserClipCullMask(pa, prim);
+ vertices[i].attrib[VERTEX_POSITION_SLOT] = tmpVector[i];
}
- // cull prims outside view frustum
- simdscalar clipIntersection = ComputeClipCodeIntersection();
- int validMask = primMask & _simd_movemask_ps(_simd_cmpeq_ps(clipIntersection, _simd_setzero_ps()));
+ // assemble attribs
+ const SWR_BACKEND_STATE& backendState = this->state.backendState;
- // skip clipping for points
- uint32_t clipMask = 0;
- if (NumVertsPerPrim != 1)
+ int32_t maxSlot = -1;
+ for (uint32_t slot = 0; slot < backendState.numAttributes; ++slot)
{
- clipMask = primMask & ComputeClipMask();
+ // Compute absolute attrib slot in vertex array
+ uint32_t mapSlot = backendState.swizzleEnable ? backendState.swizzleMap[slot].sourceAttrib : slot;
+ maxSlot = std::max<int32_t>(maxSlot, mapSlot);
+ uint32_t inputSlot = VERTEX_ATTRIB_START_SLOT + mapSlot;
+
+ pa.Assemble_simd16(inputSlot, tmpVector);
+
+ // if constant interpolation enabled for this attribute, assign the provoking
+ // vertex values to all edges
+ if (_bittest(&constantInterpMask, slot))
+ {
+ for (uint32_t i = 0; i < NumVertsPerPrim; ++i)
+ {
+ vertices[i].attrib[inputSlot] = tmpVector[provokingVertex];
+ }
+ }
+ else
+ {
+ for (uint32_t i = 0; i < NumVertsPerPrim; ++i)
+ {
+ vertices[i].attrib[inputSlot] = tmpVector[i];
+ }
+ }
}
- if (clipMask)
+ // assemble user clip distances if enabled
+ if (this->state.rastState.clipDistanceMask & 0xf)
{
- AR_BEGIN(FEGuardbandClip, pa.pDC->drawId);
- // we have to clip tris, execute the clipper, which will also
- // call the binner
- ClipSimd(vMask(primMask), vMask(clipMask), pa, primId, viewportIdx);
- AR_END(FEGuardbandClip, 1);
+ pa.Assemble_simd16(VERTEX_CLIPCULL_DIST_LO_SLOT, tmpVector);
+ for (uint32_t i = 0; i < NumVertsPerPrim; ++i)
+ {
+ vertices[i].attrib[VERTEX_CLIPCULL_DIST_LO_SLOT] = tmpVector[i];
+ }
}
- else if (validMask)
- {
- // update CPrimitives pipeline state
- UPDATE_STAT_FE(CPrimitives, _mm_popcnt_u32(validMask));
- // forward valid prims directly to binner
- pfnBinner(this->pDC, pa, this->workerId, prim, validMask, primId, viewportIdx);
+ if (this->state.rastState.clipDistanceMask & 0xf0)
+ {
+ pa.Assemble_simd16(VERTEX_CLIPCULL_DIST_HI_SLOT, tmpVector);
+ for (uint32_t i = 0; i < NumVertsPerPrim; ++i)
+ {
+ vertices[i].attrib[VERTEX_CLIPCULL_DIST_HI_SLOT] = tmpVector[i];
+ }
}
- }
-private:
- inline simdscalar ComputeInterpFactor(simdscalar boundaryCoord0, simdscalar boundaryCoord1)
- {
- return _simd_div_ps(boundaryCoord0, _simd_sub_ps(boundaryCoord0, boundaryCoord1));
- }
+ uint32_t numAttribs = maxSlot + 1;
- inline simdscalari ComputeOffsets(uint32_t attrib, simdscalari vIndices, uint32_t component)
- {
- const uint32_t simdVertexStride = sizeof(simdvertex);
- const uint32_t componentStride = sizeof(simdscalar);
- const uint32_t attribStride = sizeof(simdvector);
- const __m256i vElemOffset = _mm256_set_epi32(7 * sizeof(float), 6 * sizeof(float), 5 * sizeof(float), 4 * sizeof(float),
- 3 * sizeof(float), 2 * sizeof(float), 1 * sizeof(float), 0 * sizeof(float));
+ simd16scalari vNumClippedVerts = ClipPrims((float*)&vertices[0], vPrimMask, vClipMask, numAttribs);
- // step to the simdvertex
- simdscalari vOffsets = _simd_mullo_epi32(vIndices, _simd_set1_epi32(simdVertexStride));
+ // set up new PA for binning clipped primitives
+ PFN_PROCESS_PRIMS_SIMD16 pfnBinFunc = nullptr;
+ PRIMITIVE_TOPOLOGY clipTopology = TOP_UNKNOWN;
+ if (NumVertsPerPrim == 3)
+ {
+ pfnBinFunc = GetBinTrianglesFunc_simd16((pa.pDC->pState->state.rastState.conservativeRast > 0));
+ clipTopology = TOP_TRIANGLE_FAN;
+
+ // so that the binner knows to bloat wide points later
+ if (pa.binTopology == TOP_POINT_LIST)
+ clipTopology = TOP_POINT_LIST;
+
+ }
+ else if (NumVertsPerPrim == 2)
+ {
+ pfnBinFunc = BinLines_simd16;
+ clipTopology = TOP_LINE_LIST;
+ }
+ else
+ {
+ SWR_ASSERT(0 && "Unexpected points in clipper.");
+ }
+
+ uint32_t* pVertexCount = (uint32_t*)&vNumClippedVerts;
+ uint32_t* pPrimitiveId = (uint32_t*)&vPrimId;
+ uint32_t* pViewportIdx = (uint32_t*)&vViewportIdx;
+
+ const simdscalari vOffsets = _simd_set_epi32(
+ 0 * sizeof(simd16vertex), // unused lane
+ 6 * sizeof(simd16vertex),
+ 5 * sizeof(simd16vertex),
+ 4 * sizeof(simd16vertex),
+ 3 * sizeof(simd16vertex),
+ 2 * sizeof(simd16vertex),
+ 1 * sizeof(simd16vertex),
+ 0 * sizeof(simd16vertex));
+
+ // only need to gather 7 verts
+ // @todo dynamic mask based on actual # of verts generated per lane
+ const simdscalar vMask = _mm256_set_ps(0, -1, -1, -1, -1, -1, -1, -1);
+
+ uint32_t numClippedPrims = 0;
+
+ // tranpose clipper output so that each lane's vertices are in SIMD order
+ // set aside space for 2 vertices, as the PA will try to read up to 16 verts
+ // for triangle fan
+
+#if defined(_DEBUG)
+ // TODO: need to increase stack size, allocating SIMD16-widened transposedPrims causes stack overflow in debug builds
+ simd16vertex *transposedPrims = reinterpret_cast<simd16vertex *>(malloc(sizeof(simd16vertex) * 2));
+
+#else
+ simd16vertex transposedPrims[2];
+
+#endif
+ for (uint32_t inputPrim = 0; inputPrim < pa.NumPrims(); ++inputPrim)
+ {
+ uint32_t numEmittedVerts = pVertexCount[inputPrim];
+ if (numEmittedVerts < NumVertsPerPrim)
+ {
+ continue;
+ }
+ SWR_ASSERT(numEmittedVerts <= 7, "Unexpected vertex count from clipper.");
+
+ uint32_t numEmittedPrims = GetNumPrims(clipTopology, numEmittedVerts);
+ numClippedPrims += numEmittedPrims;
+
+ // tranpose clipper output so that each lane's vertices are in SIMD order
+ // set aside space for 2 vertices, as the PA will try to read up to 16 verts
+ // for triangle fan
+
+ // transpose pos
+ uint8_t* pBase = (uint8_t*)(&vertices[0].attrib[VERTEX_POSITION_SLOT]) + sizeof(float) * inputPrim;
+
+#if 0
+ // TEMPORARY WORKAROUND for bizarre VS2015 code-gen bug - use dx11_clipping_03-09 failures to check for existence of bug
+ static const float *dummy = reinterpret_cast<const float *>(pBase);
+#endif
+
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simdscalar temp = _simd_mask_i32gather_ps(_simd_setzero_ps(), (const float *)pBase, vOffsets, vMask, 1);
+ transposedPrims[0].attrib[VERTEX_POSITION_SLOT][c] = _simd16_insert_ps(_simd16_setzero_ps(), temp, 0);
+ pBase += sizeof(simd16scalar);
+ }
+
+ // transpose attribs
+ pBase = (uint8_t*)(&vertices[0].attrib[VERTEX_ATTRIB_START_SLOT]) + sizeof(float) * inputPrim;
+ for (uint32_t attrib = 0; attrib < numAttribs; ++attrib)
+ {
+ uint32_t attribSlot = VERTEX_ATTRIB_START_SLOT + attrib;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simdscalar temp = _simd_mask_i32gather_ps(_simd_setzero_ps(), (const float *)pBase, vOffsets, vMask, 1);
+ transposedPrims[0].attrib[attribSlot][c] = _simd16_insert_ps(_simd16_setzero_ps(), temp, 0);
+ pBase += sizeof(simd16scalar);
+ }
+ }
+
+ // transpose user clip distances if enabled
+ if (this->state.rastState.clipDistanceMask & 0xf)
+ {
+ pBase = (uint8_t*)(&vertices[0].attrib[VERTEX_CLIPCULL_DIST_LO_SLOT]) + sizeof(float) * inputPrim;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simdscalar temp = _simd_mask_i32gather_ps(_simd_setzero_ps(), (const float *)pBase, vOffsets, vMask, 1);
+ transposedPrims[0].attrib[VERTEX_CLIPCULL_DIST_LO_SLOT][c] = _simd16_insert_ps(_simd16_setzero_ps(), temp, 0);
+ pBase += sizeof(simd16scalar);
+ }
+ }
+
+ if (this->state.rastState.clipDistanceMask & 0xf0)
+ {
+ pBase = (uint8_t*)(&vertices[0].attrib[VERTEX_CLIPCULL_DIST_HI_SLOT]) + sizeof(float) * inputPrim;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simdscalar temp = _simd_mask_i32gather_ps(_simd_setzero_ps(), (const float *)pBase, vOffsets, vMask, 1);
+ transposedPrims[0].attrib[VERTEX_CLIPCULL_DIST_HI_SLOT][c] = _simd16_insert_ps(_simd16_setzero_ps(), temp, 0);
+ pBase += sizeof(simd16scalar);
+ }
+ }
+
+ PA_STATE_OPT clipPa(this->pDC, numEmittedPrims, (uint8_t*)&transposedPrims[0], numEmittedVerts, true, clipTopology);
+
+ while (clipPa.GetNextStreamOutput())
+ {
+ do
+ {
+ simd16vector attrib[NumVertsPerPrim];
+ bool assemble = clipPa.Assemble_simd16(VERTEX_POSITION_SLOT, attrib);
+
+ if (assemble)
+ {
+ static const uint32_t primMaskMap[] = { 0x0, 0x1, 0x3, 0x7, 0xf, 0x1f, 0x3f, 0x7f, 0xff, 0x1ff, 0x3ff, 0x7ff, 0xfff, 0x1fff, 0x3fff, 0x7fff, 0xffff };
+
+ clipPa.useAlternateOffset = false;
+ pfnBinFunc(this->pDC, clipPa, this->workerId, attrib, primMaskMap[numEmittedPrims], _simd16_set1_epi32(pPrimitiveId[inputPrim]), _simd16_set1_epi32(pViewportIdx[inputPrim]));
+ }
+
+ } while (clipPa.NextPrim());
+ }
+ }
+
+#if defined(_DEBUG)
+ free(transposedPrims);
+
+#endif
+ // update global pipeline stat
+ UPDATE_STAT_FE(CPrimitives, numClippedPrims);
+ }
+
+#endif
+ // execute the clipper stage
+ void ExecuteStage(PA_STATE& pa, simdvector prim[], uint32_t primMask, simdscalari primId, simdscalari viewportIdx)
+ {
+ SWR_ASSERT(pa.pDC != nullptr);
+ SWR_CONTEXT* pContext = pa.pDC->pContext;
+
+ // set up binner based on PA state
+ PFN_PROCESS_PRIMS pfnBinner;
+ switch (pa.binTopology)
+ {
+ case TOP_POINT_LIST:
+ pfnBinner = BinPoints;
+ break;
+ case TOP_LINE_LIST:
+ case TOP_LINE_STRIP:
+ case TOP_LINE_LOOP:
+ case TOP_LINE_LIST_ADJ:
+ case TOP_LISTSTRIP_ADJ:
+ pfnBinner = BinLines;
+ break;
+ default:
+ pfnBinner = GetBinTrianglesFunc((pa.pDC->pState->state.rastState.conservativeRast > 0));
+ break;
+ };
+
+ // update clipper invocations pipeline stat
+ uint32_t numInvoc = _mm_popcnt_u32(primMask);
+ UPDATE_STAT_FE(CInvocations, numInvoc);
+
+ ComputeClipCodes(prim, viewportIdx);
+
+ // cull prims with NAN coords
+ primMask &= ~ComputeNaNMask(prim);
+
+ // user cull distance cull
+ if (this->state.rastState.cullDistanceMask)
+ {
+ primMask &= ~ComputeUserClipCullMask(pa, prim);
+ }
+
+ // cull prims outside view frustum
+ simdscalar clipIntersection = ComputeClipCodeIntersection();
+ int validMask = primMask & _simd_movemask_ps(_simd_cmpeq_ps(clipIntersection, _simd_setzero_ps()));
+
+ // skip clipping for points
+ uint32_t clipMask = 0;
+ if (NumVertsPerPrim != 1)
+ {
+ clipMask = primMask & ComputeClipMask();
+ }
+
+ if (clipMask)
+ {
+ AR_BEGIN(FEGuardbandClip, pa.pDC->drawId);
+ // we have to clip tris, execute the clipper, which will also
+ // call the binner
+ ClipSimd(vMask(primMask), vMask(clipMask), pa, primId, viewportIdx);
+ AR_END(FEGuardbandClip, 1);
+ }
+ else if (validMask)
+ {
+ // update CPrimitives pipeline state
+ UPDATE_STAT_FE(CPrimitives, _mm_popcnt_u32(validMask));
+
+ // forward valid prims directly to binner
+ pfnBinner(this->pDC, pa, this->workerId, prim, validMask, primId, viewportIdx);
+ }
+ }
+
+#if USE_SIMD16_FRONTEND
+ void ExecuteStage(PA_STATE& pa, simd16vector prim[], uint32_t primMask, simd16scalari primId, simd16scalari viewportIdx)
+ {
+ SWR_ASSERT(pa.pDC != nullptr);
+ SWR_CONTEXT* pContext = pa.pDC->pContext;
+
+ // set up binner based on PA state
+ PFN_PROCESS_PRIMS_SIMD16 pfnBinner;
+ switch (pa.binTopology)
+ {
+ case TOP_POINT_LIST:
+ pfnBinner = BinPoints_simd16;
+ break;
+ case TOP_LINE_LIST:
+ case TOP_LINE_STRIP:
+ case TOP_LINE_LOOP:
+ case TOP_LINE_LIST_ADJ:
+ case TOP_LISTSTRIP_ADJ:
+ pfnBinner = BinLines_simd16;
+ break;
+ default:
+ pfnBinner = GetBinTrianglesFunc_simd16((pa.pDC->pState->state.rastState.conservativeRast > 0));
+ break;
+ };
+
+ // update clipper invocations pipeline stat
+ uint32_t numInvoc = _mm_popcnt_u32(primMask);
+ UPDATE_STAT_FE(CInvocations, numInvoc);
+
+ ComputeClipCodes(prim, viewportIdx);
+
+ // cull prims with NAN coords
+ primMask &= ~ComputeNaNMask(prim);
+
+ // user cull distance cull
+ if (this->state.rastState.cullDistanceMask)
+ {
+ primMask &= ~ComputeUserClipCullMask(pa, prim);
+ }
+
+ // cull prims outside view frustum
+ simd16scalar clipIntersection = ComputeClipCodeIntersection_simd16();
+ int validMask = primMask & _simd16_movemask_ps(_simd16_cmpeq_ps(clipIntersection, _simd16_setzero_ps()));
+
+ // skip clipping for points
+ uint32_t clipMask = 0;
+ if (NumVertsPerPrim != 1)
+ {
+ clipMask = primMask & ComputeClipMask_simd16();
+ }
+
+ if (clipMask)
+ {
+ AR_BEGIN(FEGuardbandClip, pa.pDC->drawId);
+ // we have to clip tris, execute the clipper, which will also
+ // call the binner
+ ClipSimd(vMask16(primMask), vMask16(clipMask), pa, primId, viewportIdx);
+ AR_END(FEGuardbandClip, 1);
+ }
+ else if (validMask)
+ {
+ // update CPrimitives pipeline state
+ UPDATE_STAT_FE(CPrimitives, _mm_popcnt_u32(validMask));
+
+ // forward valid prims directly to binner
+ pfnBinner(this->pDC, pa, this->workerId, prim, validMask, primId, viewportIdx);
+ }
+ }
+
+#endif
+private:
+ inline simdscalar ComputeInterpFactor(simdscalar boundaryCoord0, simdscalar boundaryCoord1)
+ {
+ return _simd_div_ps(boundaryCoord0, _simd_sub_ps(boundaryCoord0, boundaryCoord1));
+ }
+
+#if USE_SIMD16_FRONTEND
+ inline simd16scalar ComputeInterpFactor(simd16scalar boundaryCoord0, simd16scalar boundaryCoord1)
+ {
+ return _simd16_div_ps(boundaryCoord0, _simd16_sub_ps(boundaryCoord0, boundaryCoord1));
+ }
+
+#endif
+ inline simdscalari ComputeOffsets(uint32_t attrib, simdscalari vIndices, uint32_t component)
+ {
+ const uint32_t simdVertexStride = sizeof(simdvertex);
+ const uint32_t componentStride = sizeof(simdscalar);
+ const uint32_t attribStride = sizeof(simdvector);
+ const __m256i vElemOffset = _mm256_set_epi32(7 * sizeof(float), 6 * sizeof(float), 5 * sizeof(float), 4 * sizeof(float),
+ 3 * sizeof(float), 2 * sizeof(float), 1 * sizeof(float), 0 * sizeof(float));
+
+ // step to the simdvertex
+ simdscalari vOffsets = _simd_mullo_epi32(vIndices, _simd_set1_epi32(simdVertexStride));
// step to the attribute and component
vOffsets = _simd_add_epi32(vOffsets, _simd_set1_epi32(attribStride * attrib + componentStride * component));
@@ -611,6 +1116,31 @@ private:
return vOffsets;
}
+#if USE_SIMD16_FRONTEND
+ inline simd16scalari ComputeOffsets(uint32_t attrib, simd16scalari vIndices, uint32_t component)
+ {
+ const uint32_t simdVertexStride = sizeof(simd16vertex);
+ const uint32_t componentStride = sizeof(simd16scalar);
+ const uint32_t attribStride = sizeof(simd16vector);
+ const simd16scalari vElemOffset = _simd16_set_epi32(
+ 15 * sizeof(float), 14 * sizeof(float), 13 * sizeof(float), 12 * sizeof(float),
+ 11 * sizeof(float), 10 * sizeof(float), 9 * sizeof(float), 8 * sizeof(float),
+ 7 * sizeof(float), 6 * sizeof(float), 5 * sizeof(float), 4 * sizeof(float),
+ 3 * sizeof(float), 2 * sizeof(float), 1 * sizeof(float), 0 * sizeof(float));
+
+ // step to the simdvertex
+ simd16scalari vOffsets = _simd16_mullo_epi32(vIndices, _simd16_set1_epi32(simdVertexStride));
+
+ // step to the attribute and component
+ vOffsets = _simd16_add_epi32(vOffsets, _simd16_set1_epi32(attribStride * attrib + componentStride * component));
+
+ // step to the lane
+ vOffsets = _simd16_add_epi32(vOffsets, vElemOffset);
+
+ return vOffsets;
+ }
+
+#endif
// gathers a single component for a given attribute for each SIMD lane
inline simdscalar GatherComponent(const float* pBuffer, uint32_t attrib, simdscalar vMask, simdscalari vIndices, uint32_t component)
{
@@ -619,13 +1149,39 @@ private:
return _simd_mask_i32gather_ps(vSrc, pBuffer, vOffsets, vMask, 1);
}
- inline void ScatterComponent(const float* pBuffer, uint32_t attrib, simdscalar vMask, simdscalari vIndices, uint32_t component, simdscalar vSrc)
+#if USE_SIMD16_FRONTEND
+ inline simd16scalar GatherComponent(const float* pBuffer, uint32_t attrib, simd16scalar vMask, simd16scalari vIndices, uint32_t component)
+ {
+ simd16scalari vOffsets = ComputeOffsets(attrib, vIndices, component);
+ simd16scalar vSrc = _simd16_setzero_ps();
+ return _simd16_mask_i32gather_ps(vSrc, pBuffer, vOffsets, _simd16_castps_si(vMask), 1);
+ }
+
+#endif
+ inline void ScatterComponent(const float* pBuffer, uint32_t attrib, simdscalar vMask, simdscalari vIndices, uint32_t component, simdscalar vSrc)
+ {
+ simdscalari vOffsets = ComputeOffsets(attrib, vIndices, component);
+
+ uint32_t* pOffsets = (uint32_t*)&vOffsets;
+ float* pSrc = (float*)&vSrc;
+ uint32_t mask = _simd_movemask_ps(vMask);
+ DWORD lane;
+ while (_BitScanForward(&lane, mask))
+ {
+ mask &= ~(1 << lane);
+ uint8_t* pBuf = (uint8_t*)pBuffer + pOffsets[lane];
+ *(float*)pBuf = pSrc[lane];
+ }
+ }
+
+#if USE_SIMD16_FRONTEND
+ inline void ScatterComponent(const float* pBuffer, uint32_t attrib, simd16scalar vMask, simd16scalari vIndices, uint32_t component, simd16scalar vSrc)
{
- simdscalari vOffsets = ComputeOffsets(attrib, vIndices, component);
+ simd16scalari vOffsets = ComputeOffsets(attrib, vIndices, component);
uint32_t* pOffsets = (uint32_t*)&vOffsets;
float* pSrc = (float*)&vSrc;
- uint32_t mask = _simd_movemask_ps(vMask);
+ uint32_t mask = _simd16_movemask_ps(vMask);
DWORD lane;
while (_BitScanForward(&lane, mask))
{
@@ -635,6 +1191,7 @@ private:
}
}
+#endif
template<SWR_CLIPCODES ClippingPlane>
inline void intersect(
const simdscalar& vActiveMask, // active lanes to operate on
@@ -716,6 +1273,89 @@ private:
}
}
+#if USE_SIMD16_FRONTEND
+ template<SWR_CLIPCODES ClippingPlane>
+ inline void intersect(
+ const simd16scalar& vActiveMask,// active lanes to operate on
+ const simd16scalari& s, // index to first edge vertex v0 in pInPts.
+ const simd16scalari& p, // index to second edge vertex v1 in pInPts.
+ const simd16vector& v1, // vertex 0 position
+ const simd16vector& v2, // vertex 1 position
+ simd16scalari& outIndex, // output index.
+ const float *pInVerts, // array of all the input positions.
+ uint32_t numInAttribs, // number of attributes per vertex.
+ float *pOutVerts) // array of output positions. We'll write our new intersection point at i*4.
+ {
+ // compute interpolation factor
+ simd16scalar t;
+ switch (ClippingPlane)
+ {
+ case FRUSTUM_LEFT: t = ComputeInterpFactor(_simd16_add_ps(v1[3], v1[0]), _simd16_add_ps(v2[3], v2[0])); break;
+ case FRUSTUM_RIGHT: t = ComputeInterpFactor(_simd16_sub_ps(v1[3], v1[0]), _simd16_sub_ps(v2[3], v2[0])); break;
+ case FRUSTUM_TOP: t = ComputeInterpFactor(_simd16_add_ps(v1[3], v1[1]), _simd16_add_ps(v2[3], v2[1])); break;
+ case FRUSTUM_BOTTOM: t = ComputeInterpFactor(_simd16_sub_ps(v1[3], v1[1]), _simd16_sub_ps(v2[3], v2[1])); break;
+ case FRUSTUM_NEAR:
+ // DX Znear plane is 0, GL is -w
+ if (this->state.rastState.clipHalfZ)
+ {
+ t = ComputeInterpFactor(v1[2], v2[2]);
+ }
+ else
+ {
+ t = ComputeInterpFactor(_simd16_add_ps(v1[3], v1[2]), _simd16_add_ps(v2[3], v2[2]));
+ }
+ break;
+ case FRUSTUM_FAR: t = ComputeInterpFactor(_simd16_sub_ps(v1[3], v1[2]), _simd16_sub_ps(v2[3], v2[2])); break;
+ default: SWR_INVALID("invalid clipping plane: %d", ClippingPlane);
+ };
+
+ // interpolate position and store
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simd16scalar vOutPos = _simd16_fmadd_ps(_simd16_sub_ps(v2[c], v1[c]), t, v1[c]);
+ ScatterComponent(pOutVerts, VERTEX_POSITION_SLOT, vActiveMask, outIndex, c, vOutPos);
+ }
+
+ // interpolate attributes and store
+ for (uint32_t a = 0; a < numInAttribs; ++a)
+ {
+ uint32_t attribSlot = VERTEX_ATTRIB_START_SLOT + a;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simd16scalar vAttrib0 = GatherComponent(pInVerts, attribSlot, vActiveMask, s, c);
+ simd16scalar vAttrib1 = GatherComponent(pInVerts, attribSlot, vActiveMask, p, c);
+ simd16scalar vOutAttrib = _simd16_fmadd_ps(_simd16_sub_ps(vAttrib1, vAttrib0), t, vAttrib0);
+ ScatterComponent(pOutVerts, attribSlot, vActiveMask, outIndex, c, vOutAttrib);
+ }
+ }
+
+ // interpolate clip distance if enabled
+ if (this->state.rastState.clipDistanceMask & 0xf)
+ {
+ uint32_t attribSlot = VERTEX_CLIPCULL_DIST_LO_SLOT;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simd16scalar vAttrib0 = GatherComponent(pInVerts, attribSlot, vActiveMask, s, c);
+ simd16scalar vAttrib1 = GatherComponent(pInVerts, attribSlot, vActiveMask, p, c);
+ simd16scalar vOutAttrib = _simd16_fmadd_ps(_simd16_sub_ps(vAttrib1, vAttrib0), t, vAttrib0);
+ ScatterComponent(pOutVerts, attribSlot, vActiveMask, outIndex, c, vOutAttrib);
+ }
+ }
+
+ if (this->state.rastState.clipDistanceMask & 0xf0)
+ {
+ uint32_t attribSlot = VERTEX_CLIPCULL_DIST_HI_SLOT;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simd16scalar vAttrib0 = GatherComponent(pInVerts, attribSlot, vActiveMask, s, c);
+ simd16scalar vAttrib1 = GatherComponent(pInVerts, attribSlot, vActiveMask, p, c);
+ simd16scalar vOutAttrib = _simd16_fmadd_ps(_simd16_sub_ps(vAttrib1, vAttrib0), t, vAttrib0);
+ ScatterComponent(pOutVerts, attribSlot, vActiveMask, outIndex, c, vOutAttrib);
+ }
+ }
+ }
+
+#endif
template<SWR_CLIPCODES ClippingPlane>
inline simdscalar inside(const simdvector& v)
{
@@ -733,6 +1373,25 @@ private:
}
}
+#if USE_SIMD16_FRONTEND
+ template<SWR_CLIPCODES ClippingPlane>
+ inline simd16scalar inside(const simd16vector& v)
+ {
+ switch (ClippingPlane)
+ {
+ case FRUSTUM_LEFT: return _simd16_cmpge_ps(v[0], _simd16_mul_ps(v[3], _simd16_set1_ps(-1.0f)));
+ case FRUSTUM_RIGHT: return _simd16_cmple_ps(v[0], v[3]);
+ case FRUSTUM_TOP: return _simd16_cmpge_ps(v[1], _simd16_mul_ps(v[3], _simd16_set1_ps(-1.0f)));
+ case FRUSTUM_BOTTOM: return _simd16_cmple_ps(v[1], v[3]);
+ case FRUSTUM_NEAR: return _simd16_cmpge_ps(v[2], this->state.rastState.clipHalfZ ? _simd16_setzero_ps() : _simd16_mul_ps(v[3], _simd16_set1_ps(-1.0f)));
+ case FRUSTUM_FAR: return _simd16_cmple_ps(v[2], v[3]);
+ default:
+ SWR_INVALID("invalid clipping plane: %d", ClippingPlane);
+ return _simd16_setzero_ps();
+ }
+ }
+
+#endif
template<SWR_CLIPCODES ClippingPlane>
simdscalari ClipTriToPlane(const float* pInVerts, const simdscalari& vNumInPts, uint32_t numInAttribs, float* pOutVerts)
{
@@ -826,6 +1485,101 @@ private:
return vOutIndex;
}
+#if USE_SIMD16_FRONTEND
+ template<SWR_CLIPCODES ClippingPlane>
+ simd16scalari ClipTriToPlane(const float* pInVerts, const simd16scalari& vNumInPts, uint32_t numInAttribs, float* pOutVerts)
+ {
+ simd16scalari vCurIndex = _simd16_setzero_si();
+ simd16scalari vOutIndex = _simd16_setzero_si();
+ simd16scalar vActiveMask = _simd16_castsi_ps(_simd16_cmplt_epi32(vCurIndex, vNumInPts));
+
+ while (!_simd16_testz_ps(vActiveMask, vActiveMask)) // loop until activeMask is empty
+ {
+ simd16scalari s = vCurIndex;
+ simd16scalari p = _simd16_add_epi32(s, _simd16_set1_epi32(1));
+ simd16scalari underFlowMask = _simd16_cmpgt_epi32(vNumInPts, p);
+ p = _simd16_castps_si(_simd16_blendv_ps(_simd16_setzero_ps(), _simd16_castsi_ps(p), _simd16_castsi_ps(underFlowMask)));
+
+ // gather position
+ simd16vector vInPos0, vInPos1;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ vInPos0[c] = GatherComponent(pInVerts, VERTEX_POSITION_SLOT, vActiveMask, s, c);
+ vInPos1[c] = GatherComponent(pInVerts, VERTEX_POSITION_SLOT, vActiveMask, p, c);
+ }
+
+ // compute inside mask
+ simd16scalar s_in = inside<ClippingPlane>(vInPos0);
+ simd16scalar p_in = inside<ClippingPlane>(vInPos1);
+
+ // compute intersection mask (s_in != p_in)
+ simd16scalar intersectMask = _simd16_xor_ps(s_in, p_in);
+ intersectMask = _simd16_and_ps(intersectMask, vActiveMask);
+
+ // store s if inside
+ s_in = _simd16_and_ps(s_in, vActiveMask);
+ if (!_simd16_testz_ps(s_in, s_in))
+ {
+ // store position
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ ScatterComponent(pOutVerts, VERTEX_POSITION_SLOT, s_in, vOutIndex, c, vInPos0[c]);
+ }
+
+ // store attribs
+ for (uint32_t a = 0; a < numInAttribs; ++a)
+ {
+ uint32_t attribSlot = VERTEX_ATTRIB_START_SLOT + a;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simd16scalar vAttrib = GatherComponent(pInVerts, attribSlot, s_in, s, c);
+ ScatterComponent(pOutVerts, attribSlot, s_in, vOutIndex, c, vAttrib);
+ }
+ }
+
+ // store clip distance if enabled
+ if (this->state.rastState.clipDistanceMask & 0xf)
+ {
+ uint32_t attribSlot = VERTEX_CLIPCULL_DIST_LO_SLOT;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simd16scalar vAttrib = GatherComponent(pInVerts, attribSlot, s_in, s, c);
+ ScatterComponent(pOutVerts, attribSlot, s_in, vOutIndex, c, vAttrib);
+ }
+ }
+
+ if (this->state.rastState.clipDistanceMask & 0xf0)
+ {
+ uint32_t attribSlot = VERTEX_CLIPCULL_DIST_HI_SLOT;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simd16scalar vAttrib = GatherComponent(pInVerts, attribSlot, s_in, s, c);
+ ScatterComponent(pOutVerts, attribSlot, s_in, vOutIndex, c, vAttrib);
+ }
+ }
+
+ // increment outIndex
+ vOutIndex = _simd16_blendv_epi32(vOutIndex, _simd16_add_epi32(vOutIndex, _simd16_set1_epi32(1)), s_in);
+ }
+
+ // compute and store intersection
+ if (!_simd16_testz_ps(intersectMask, intersectMask))
+ {
+ intersect<ClippingPlane>(intersectMask, s, p, vInPos0, vInPos1, vOutIndex, pInVerts, numInAttribs, pOutVerts);
+
+ // increment outIndex for active lanes
+ vOutIndex = _simd16_blendv_epi32(vOutIndex, _simd16_add_epi32(vOutIndex, _simd16_set1_epi32(1)), intersectMask);
+ }
+
+ // increment loop index and update active mask
+ vCurIndex = _simd16_add_epi32(vCurIndex, _simd16_set1_epi32(1));
+ vActiveMask = _simd16_castsi_ps(_simd16_cmplt_epi32(vCurIndex, vNumInPts));
+ }
+
+ return vOutIndex;
+ }
+
+#endif
template<SWR_CLIPCODES ClippingPlane>
simdscalari ClipLineToPlane(const float* pInVerts, const simdscalari& vNumInPts, uint32_t numInAttribs, float* pOutVerts)
{
@@ -915,6 +1669,96 @@ private:
return vOutIndex;
}
+#if USE_SIMD16_FRONTEND
+ template<SWR_CLIPCODES ClippingPlane>
+ simd16scalari ClipLineToPlane(const float* pInVerts, const simd16scalari& vNumInPts, uint32_t numInAttribs, float* pOutVerts)
+ {
+ simd16scalari vCurIndex = _simd16_setzero_si();
+ simd16scalari vOutIndex = _simd16_setzero_si();
+ simd16scalar vActiveMask = _simd16_castsi_ps(_simd16_cmplt_epi32(vCurIndex, vNumInPts));
+
+ if (!_simd16_testz_ps(vActiveMask, vActiveMask))
+ {
+ simd16scalari s = vCurIndex;
+ simd16scalari p = _simd16_add_epi32(s, _simd16_set1_epi32(1));
+
+ // gather position
+ simd16vector vInPos0, vInPos1;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ vInPos0[c] = GatherComponent(pInVerts, VERTEX_POSITION_SLOT, vActiveMask, s, c);
+ vInPos1[c] = GatherComponent(pInVerts, VERTEX_POSITION_SLOT, vActiveMask, p, c);
+ }
+
+ // compute inside mask
+ simd16scalar s_in = inside<ClippingPlane>(vInPos0);
+ simd16scalar p_in = inside<ClippingPlane>(vInPos1);
+
+ // compute intersection mask (s_in != p_in)
+ simd16scalar intersectMask = _simd16_xor_ps(s_in, p_in);
+ intersectMask = _simd16_and_ps(intersectMask, vActiveMask);
+
+ // store s if inside
+ s_in = _simd16_and_ps(s_in, vActiveMask);
+ if (!_simd16_testz_ps(s_in, s_in))
+ {
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ ScatterComponent(pOutVerts, VERTEX_POSITION_SLOT, s_in, vOutIndex, c, vInPos0[c]);
+ }
+
+ // interpolate attributes and store
+ for (uint32_t a = 0; a < numInAttribs; ++a)
+ {
+ uint32_t attribSlot = VERTEX_ATTRIB_START_SLOT + a;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simd16scalar vAttrib = GatherComponent(pInVerts, attribSlot, s_in, s, c);
+ ScatterComponent(pOutVerts, attribSlot, s_in, vOutIndex, c, vAttrib);
+ }
+ }
+
+ // increment outIndex
+ vOutIndex = _simd16_blendv_epi32(vOutIndex, _simd16_add_epi32(vOutIndex, _simd16_set1_epi32(1)), s_in);
+ }
+
+ // compute and store intersection
+ if (!_simd16_testz_ps(intersectMask, intersectMask))
+ {
+ intersect<ClippingPlane>(intersectMask, s, p, vInPos0, vInPos1, vOutIndex, pInVerts, numInAttribs, pOutVerts);
+
+ // increment outIndex for active lanes
+ vOutIndex = _simd16_blendv_epi32(vOutIndex, _simd16_add_epi32(vOutIndex, _simd16_set1_epi32(1)), intersectMask);
+ }
+
+ // store p if inside
+ p_in = _simd16_and_ps(p_in, vActiveMask);
+ if (!_simd16_testz_ps(p_in, p_in))
+ {
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ ScatterComponent(pOutVerts, VERTEX_POSITION_SLOT, p_in, vOutIndex, c, vInPos1[c]);
+ }
+
+ // interpolate attributes and store
+ for (uint32_t a = 0; a < numInAttribs; ++a)
+ {
+ uint32_t attribSlot = VERTEX_ATTRIB_START_SLOT + a;
+ for (uint32_t c = 0; c < 4; ++c)
+ {
+ simd16scalar vAttrib = GatherComponent(pInVerts, attribSlot, p_in, p, c);
+ ScatterComponent(pOutVerts, attribSlot, p_in, vOutIndex, c, vAttrib);
+ }
+ }
+
+ // increment outIndex
+ vOutIndex = _simd16_blendv_epi32(vOutIndex, _simd16_add_epi32(vOutIndex, _simd16_set1_epi32(1)), p_in);
+ }
+ }
+
+ return vOutIndex;
+ }
+#endif
//////////////////////////////////////////////////////////////////////////
/// @brief Vertical clipper. Clips SIMD primitives at a time
/// @param pVertices - pointer to vertices in SOA form. Clipper will read input and write results to this buffer
@@ -958,10 +1802,53 @@ private:
return vNumOutPts;
}
+#if USE_SIMD16_FRONTEND
+ simd16scalari ClipPrims(float* pVertices, const simd16scalar& vPrimMask, const simd16scalar& vClipMask, int numAttribs)
+ {
+ // temp storage
+ float* pTempVerts = (float*)&tlsTempVertices_simd16[0];
+
+ // zero out num input verts for non-active lanes
+ simd16scalari vNumInPts = _simd16_set1_epi32(NumVertsPerPrim);
+ vNumInPts = _simd16_blendv_epi32(_simd16_setzero_si(), vNumInPts, vClipMask);
+
+ // clip prims to frustum
+ simd16scalari vNumOutPts;
+ if (NumVertsPerPrim == 3)
+ {
+ vNumOutPts = ClipTriToPlane<FRUSTUM_NEAR>(pVertices, vNumInPts, numAttribs, pTempVerts);
+ vNumOutPts = ClipTriToPlane<FRUSTUM_FAR>(pTempVerts, vNumOutPts, numAttribs, pVertices);
+ vNumOutPts = ClipTriToPlane<FRUSTUM_LEFT>(pVertices, vNumOutPts, numAttribs, pTempVerts);
+ vNumOutPts = ClipTriToPlane<FRUSTUM_RIGHT>(pTempVerts, vNumOutPts, numAttribs, pVertices);
+ vNumOutPts = ClipTriToPlane<FRUSTUM_BOTTOM>(pVertices, vNumOutPts, numAttribs, pTempVerts);
+ vNumOutPts = ClipTriToPlane<FRUSTUM_TOP>(pTempVerts, vNumOutPts, numAttribs, pVertices);
+ }
+ else
+ {
+ SWR_ASSERT(NumVertsPerPrim == 2);
+ vNumOutPts = ClipLineToPlane<FRUSTUM_NEAR>(pVertices, vNumInPts, numAttribs, pTempVerts);
+ vNumOutPts = ClipLineToPlane<FRUSTUM_FAR>(pTempVerts, vNumOutPts, numAttribs, pVertices);
+ vNumOutPts = ClipLineToPlane<FRUSTUM_LEFT>(pVertices, vNumOutPts, numAttribs, pTempVerts);
+ vNumOutPts = ClipLineToPlane<FRUSTUM_RIGHT>(pTempVerts, vNumOutPts, numAttribs, pVertices);
+ vNumOutPts = ClipLineToPlane<FRUSTUM_BOTTOM>(pVertices, vNumOutPts, numAttribs, pTempVerts);
+ vNumOutPts = ClipLineToPlane<FRUSTUM_TOP>(pTempVerts, vNumOutPts, numAttribs, pVertices);
+ }
+
+ // restore num verts for non-clipped, active lanes
+ simd16scalar vNonClippedMask = _simd16_andnot_ps(vClipMask, vPrimMask);
+ vNumOutPts = _simd16_blendv_epi32(vNumOutPts, _simd16_set1_epi32(NumVertsPerPrim), vNonClippedMask);
+
+ return vNumOutPts;
+ }
+
+#endif
const uint32_t workerId{ 0 };
DRAW_CONTEXT* pDC{ nullptr };
const API_STATE& state;
simdscalar clipCodes[NumVertsPerPrim];
+#if USE_SIMD16_FRONTEND
+ simd16scalar clipCodes_simd16[NumVertsPerPrim];
+#endif
};
diff --git a/src/gallium/drivers/swr/rasterizer/core/frontend.h b/src/gallium/drivers/swr/rasterizer/core/frontend.h
index e880ead..938bc98 100644
--- a/src/gallium/drivers/swr/rasterizer/core/frontend.h
+++ b/src/gallium/drivers/swr/rasterizer/core/frontend.h
@@ -208,14 +208,34 @@ void calcDeterminantIntVertical(const simd16scalari vA[3], const simd16scalari v
{
// refer to calcDeterminantInt comment for calculation explanation
// A1*B2
- simd16scalari vA1Lo = _simd16_unpacklo_epi32(vA[1], vA[1]); // 0 0 1 1 4 4 5 5
- simd16scalari vA1Hi = _simd16_unpackhi_epi32(vA[1], vA[1]); // 2 2 3 3 6 6 7 7
+
+#if 1
+ // TODO: get the native SIMD16 version working..
+
+ simdscalari vA_lo[3];
+ simdscalari vA_hi[3];
+ simdscalari vB_lo[3];
+ simdscalari vB_hi[3];
+
+ for (uint32_t i = 0; i < 3; i += 1)
+ {
+ vA_lo[i] = _simd16_extract_si(vA[i], 0);
+ vA_hi[i] = _simd16_extract_si(vA[i], 1);
+ vB_lo[i] = _simd16_extract_si(vB[i], 0);
+ vB_hi[i] = _simd16_extract_si(vB[i], 1);
+ }
+
+ calcDeterminantIntVertical(vA_lo, vB_lo, reinterpret_cast<simdscalari *>(&pvDet[0]));
+ calcDeterminantIntVertical(vA_hi, vB_hi, reinterpret_cast<simdscalari *>(&pvDet[1]));
+#else
+ simd16scalari vA1Lo = _simd16_unpacklo_epi32(vA[1], vA[1]); // 0 0 1 1 4 4 5 5 8 8 9 9 C C D D
+ simd16scalari vA1Hi = _simd16_unpackhi_epi32(vA[1], vA[1]); // 2 2 3 3 6 6 7 7 A A B B E E F F
simd16scalari vB2Lo = _simd16_unpacklo_epi32(vB[2], vB[2]);
simd16scalari vB2Hi = _simd16_unpackhi_epi32(vB[2], vB[2]);
- simd16scalari vA1B2Lo = _simd16_mul_epi32(vA1Lo, vB2Lo); // 0 1 4 5
- simd16scalari vA1B2Hi = _simd16_mul_epi32(vA1Hi, vB2Hi); // 2 3 6 7
+ simd16scalari vA1B2Lo = _simd16_mul_epi32(vA1Lo, vB2Lo); // 0 1 4 5 8 9 C D
+ simd16scalari vA1B2Hi = _simd16_mul_epi32(vA1Hi, vB2Hi); // 2 3 6 7 A B E F
// B1*A2
simd16scalari vA2Lo = _simd16_unpacklo_epi32(vA[2], vA[2]);
@@ -237,6 +257,7 @@ void calcDeterminantIntVertical(const simd16scalari vA[3], const simd16scalari v
pvDet[0] = vResultLo;
pvDet[1] = vResultHi;
+#endif
}
#endif
--
2.7.4
More information about the mesa-dev
mailing list