diff options
author | Tim Rowley <[email protected]> | 2016-04-03 23:54:50 -0600 |
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committer | Tim Rowley <[email protected]> | 2016-04-22 18:47:48 -0500 |
commit | cd21f90ecfeec322ebbe326848c4862f014e3ef1 (patch) | |
tree | 50ea081f8c5055649d2db30210f749130d1a6f5e | |
parent | 244ae7af1ba4ea8c5160b9da8db5e652e19b1a01 (diff) |
swr: [rasterizer fetch] Add support for fetching non-uniform component formats
For example, R10G10B10A2_UNORM.
Reviewed-by: Bruce Cherniak <[email protected]>
-rw-r--r-- | src/gallium/drivers/swr/rasterizer/jitter/fetch_jit.cpp | 190 |
1 files changed, 189 insertions, 1 deletions
diff --git a/src/gallium/drivers/swr/rasterizer/jitter/fetch_jit.cpp b/src/gallium/drivers/swr/rasterizer/jitter/fetch_jit.cpp index 2c2c56bd151..74668a65bad 100644 --- a/src/gallium/drivers/swr/rasterizer/jitter/fetch_jit.cpp +++ b/src/gallium/drivers/swr/rasterizer/jitter/fetch_jit.cpp @@ -76,6 +76,13 @@ struct FetchJit : public Builder void JitLoadVertices(const FETCH_COMPILE_STATE &fetchState, Value* fetchInfo, Value* streams, Value* vIndices, Value* pVtxOut); void JitGatherVertices(const FETCH_COMPILE_STATE &fetchState, Value* fetchInfo, Value* streams, Value* vIndices, Value* pVtxOut); + + bool IsOddFormat(SWR_FORMAT format); + bool IsUniformFormat(SWR_FORMAT format); + void UnpackComponents(SWR_FORMAT format, Value* vInput, Value* result[4]); + void CreateGatherOddFormats(SWR_FORMAT format, Value* pBase, Value* offsets, Value* result[4]); + void ConvertFormat(SWR_FORMAT format, Value *texels[4]); + }; Function* FetchJit::Create(const FETCH_COMPILE_STATE& fetchState) @@ -466,6 +473,169 @@ void FetchJit::JitLoadVertices(const FETCH_COMPILE_STATE &fetchState, Value* fet } } +// returns true for odd formats that require special state.gather handling +bool FetchJit::IsOddFormat(SWR_FORMAT format) +{ + const SWR_FORMAT_INFO& info = GetFormatInfo(format); + if (info.bpc[0] != 8 && info.bpc[0] != 16 && info.bpc[0] != 32) + { + return true; + } + return false; +} + +// format is uniform if all components are the same size and type +bool FetchJit::IsUniformFormat(SWR_FORMAT format) +{ + const SWR_FORMAT_INFO& info = GetFormatInfo(format); + uint32_t bpc0 = info.bpc[0]; + uint32_t type0 = info.type[0]; + + for (uint32_t c = 1; c < info.numComps; ++c) + { + if (bpc0 != info.bpc[c] || type0 != info.type[c]) + { + return false; + } + } + return true; +} + +// unpacks components based on format +// foreach component in the pixel +// mask off everything but this component +// shift component to LSB +void FetchJit::UnpackComponents(SWR_FORMAT format, Value* vInput, Value* result[4]) +{ + const SWR_FORMAT_INFO& info = GetFormatInfo(format); + + uint32_t bitOffset = 0; + for (uint32_t c = 0; c < info.numComps; ++c) + { + uint32_t swizzledIndex = info.swizzle[c]; + uint32_t compBits = info.bpc[c]; + uint32_t bitmask = ((1 << compBits) - 1) << bitOffset; + Value* comp = AND(vInput, bitmask); + comp = LSHR(comp, bitOffset); + + result[swizzledIndex] = comp; + bitOffset += compBits; + } +} + +// gather for odd component size formats +// gather SIMD full pixels per lane then shift/mask to move each component to their +// own vector +void FetchJit::CreateGatherOddFormats(SWR_FORMAT format, Value* pBase, Value* offsets, Value* result[4]) +{ + const SWR_FORMAT_INFO &info = GetFormatInfo(format); + + // only works if pixel size is <= 32bits + SWR_ASSERT(info.bpp <= 32); + + uint32_t numComps = info.numComps; + + Value* gather = VUNDEF_I(); + + // assign defaults + for (uint32_t comp = 0; comp < 4; ++comp) + { + result[comp] = VIMMED1((int)info.defaults[comp]); + } + + // gather SIMD pixels + for (uint32_t e = 0; e < JM()->mVWidth; ++e) + { + Value* elemOffset = VEXTRACT(offsets, C(e)); + Value* load = GEP(pBase, elemOffset); + + // load the proper amount of data based on component size + switch (info.bpp) + { + case 8: load = POINTER_CAST(load, Type::getInt8PtrTy(JM()->mContext)); break; + case 16: load = POINTER_CAST(load, Type::getInt16PtrTy(JM()->mContext)); break; + case 32: load = POINTER_CAST(load, Type::getInt32PtrTy(JM()->mContext)); break; + default: SWR_ASSERT(0); + } + + // load pixel + Value *val = LOAD(load); + + // zero extend to 32bit integer + val = INT_CAST(val, mInt32Ty, false); + + // store in simd lane + gather = VINSERT(gather, val, C(e)); + } + + UnpackComponents(format, gather, result); + + // cast to fp32 + result[0] = BITCAST(result[0], mSimdFP32Ty); + result[1] = BITCAST(result[1], mSimdFP32Ty); + result[2] = BITCAST(result[2], mSimdFP32Ty); + result[3] = BITCAST(result[3], mSimdFP32Ty); +} + +void FetchJit::ConvertFormat(SWR_FORMAT format, Value *texels[4]) +{ + const SWR_FORMAT_INFO &info = GetFormatInfo(format); + + for (uint32_t c = 0; c < info.numComps; ++c) + { + uint32_t compIndex = info.swizzle[c]; + + // skip any conversion on UNUSED components + if (info.type[c] == SWR_TYPE_UNUSED) + { + continue; + } + + if (info.isNormalized[c]) + { + if (info.type[c] == SWR_TYPE_SNORM) + { + /// @todo The most-negative value maps to -1.0f. e.g. the 5-bit value 10000 maps to -1.0f. + + /// result = c * (1.0f / (2^(n-1) - 1); + uint32_t n = info.bpc[c]; + uint32_t pow2 = 1 << (n - 1); + float scale = 1.0f / (float)(pow2 - 1); + Value *vScale = VIMMED1(scale); + texels[compIndex] = BITCAST(texels[compIndex], mSimdInt32Ty); + texels[compIndex] = SI_TO_FP(texels[compIndex], mSimdFP32Ty); + texels[compIndex] = FMUL(texels[compIndex], vScale); + } + else + { + SWR_ASSERT(info.type[c] == SWR_TYPE_UNORM); + + /// result = c * (1.0f / (2^n - 1)) + uint32_t n = info.bpc[c]; + uint32_t pow2 = 1 << n; + // special case 24bit unorm format, which requires a full divide to meet ULP requirement + if (n == 24) + { + float scale = (float)(pow2 - 1); + Value* vScale = VIMMED1(scale); + texels[compIndex] = BITCAST(texels[compIndex], mSimdInt32Ty); + texels[compIndex] = SI_TO_FP(texels[compIndex], mSimdFP32Ty); + texels[compIndex] = FDIV(texels[compIndex], vScale); + } + else + { + float scale = 1.0f / (float)(pow2 - 1); + Value *vScale = VIMMED1(scale); + texels[compIndex] = BITCAST(texels[compIndex], mSimdInt32Ty); + texels[compIndex] = UI_TO_FP(texels[compIndex], mSimdFP32Ty); + texels[compIndex] = FMUL(texels[compIndex], vScale); + } + } + continue; + } + } +} + ////////////////////////////////////////////////////////////////////////// /// @brief Loads attributes from memory using AVX2 GATHER(s) /// @param fetchState - info about attributes to be fetched from memory @@ -575,11 +745,26 @@ void FetchJit::JitGatherVertices(const FETCH_COMPILE_STATE &fetchState, Value* f const ComponentControl compCtrl[4] { (ComponentControl)ied.ComponentControl0, (ComponentControl)ied.ComponentControl1, (ComponentControl)ied.ComponentControl2, (ComponentControl)ied.ComponentControl3}; - if(info.type[0] == SWR_TYPE_FLOAT) + // Special gather/conversion for formats without equal component sizes + if (IsOddFormat((SWR_FORMAT)ied.Format)) + { + // Only full 4 component fetch is supported for odd formats + SWR_ASSERT(compMask == XYZW); + Value* pResults[4]; + CreateGatherOddFormats((SWR_FORMAT)ied.Format, pStreamBase, vOffsets, pResults); + ConvertFormat((SWR_FORMAT)ied.Format, pResults); + + StoreVertexElements(pVtxOut, outputElt++, 4, pResults); + currentVertexElement = 0; + } + else if(info.type[0] == SWR_TYPE_FLOAT) { ///@todo: support 64 bit vb accesses Value* gatherSrc = VIMMED1(0.0f); + SWR_ASSERT(IsUniformFormat((SWR_FORMAT)ied.Format), + "Unsupported format for standard gather fetch."); + // Gather components from memory to store in a simdvertex structure switch(bpc) { @@ -665,6 +850,9 @@ void FetchJit::JitGatherVertices(const FETCH_COMPILE_STATE &fetchState, Value* f Instruction::CastOps extendCastType = Instruction::CastOps::CastOpsEnd; ConversionType conversionType = CONVERT_NONE; + SWR_ASSERT(IsUniformFormat((SWR_FORMAT)ied.Format), + "Unsupported format for standard gather fetch."); + switch(info.type[0]) { case SWR_TYPE_UNORM: |