| // Copyright 2016 The SwiftShader Authors. All Rights Reserved. |
| // |
| // Licensed under the Apache License, Version 2.0 (the "License"); |
| // you may not use this file except in compliance with the License. |
| // You may obtain a copy of the License at |
| // |
| // http://www.apache.org/licenses/LICENSE-2.0 |
| // |
| // Unless required by applicable law or agreed to in writing, software |
| // distributed under the License is distributed on an "AS IS" BASIS, |
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| // See the License for the specific language governing permissions and |
| // limitations under the License. |
| |
| #include "VertexRoutine.hpp" |
| |
| #include "Constants.hpp" |
| #include "SpirvShader.hpp" |
| #include "Device/Renderer.hpp" |
| #include "Device/Vertex.hpp" |
| #include "System/Debug.hpp" |
| #include "System/Half.hpp" |
| |
| namespace sw { |
| |
| VertexRoutine::VertexRoutine( |
| const VertexProcessor::State &state, |
| vk::PipelineLayout const *pipelineLayout, |
| SpirvShader const *spirvShader) |
| : routine(pipelineLayout) |
| , state(state) |
| , spirvShader(spirvShader) |
| { |
| spirvShader->emitProlog(&routine); |
| } |
| |
| VertexRoutine::~VertexRoutine() |
| { |
| } |
| |
| void VertexRoutine::generate() |
| { |
| Pointer<Byte> cache = task + OFFSET(VertexTask, vertexCache); |
| Pointer<Byte> vertexCache = cache + OFFSET(VertexCache, vertex); |
| Pointer<UInt> tagCache = Pointer<UInt>(cache + OFFSET(VertexCache, tag)); |
| |
| UInt vertexCount = *Pointer<UInt>(task + OFFSET(VertexTask, vertexCount)); |
| |
| constants = *Pointer<Pointer<Byte>>(data + OFFSET(DrawData, constants)); |
| |
| // Check the cache one vertex index at a time. If a hit occurs, copy from the cache to the 'vertex' output buffer. |
| // On a cache miss, process a SIMD width of consecutive indices from the input batch. They're written to the cache |
| // in reverse order to guarantee that the first one doesn't get evicted and can be written out. |
| |
| Do |
| { |
| UInt index = *batch; |
| UInt cacheIndex = index & VertexCache::TAG_MASK; |
| |
| If(tagCache[cacheIndex] != index) |
| { |
| readInput(batch); |
| program(batch, vertexCount); |
| computeClipFlags(); |
| computeCullMask(); |
| |
| writeCache(vertexCache, tagCache, batch); |
| } |
| |
| Pointer<Byte> cacheEntry = vertexCache + cacheIndex * UInt((int)sizeof(Vertex)); |
| |
| // For points, vertexCount is 1 per primitive, so duplicate vertex for all 3 vertices of the primitive |
| for(int i = 0; i < (state.isPoint ? 3 : 1); i++) |
| { |
| writeVertex(vertex, cacheEntry); |
| vertex += sizeof(Vertex); |
| } |
| |
| batch = Pointer<UInt>(Pointer<Byte>(batch) + sizeof(uint32_t)); |
| vertexCount--; |
| } |
| Until(vertexCount == 0); |
| |
| Return(); |
| } |
| |
| void VertexRoutine::readInput(Pointer<UInt> &batch) |
| { |
| for(int i = 0; i < MAX_INTERFACE_COMPONENTS; i += 4) |
| { |
| if(spirvShader->inputs[i + 0].Type != SpirvShader::ATTRIBTYPE_UNUSED || |
| spirvShader->inputs[i + 1].Type != SpirvShader::ATTRIBTYPE_UNUSED || |
| spirvShader->inputs[i + 2].Type != SpirvShader::ATTRIBTYPE_UNUSED || |
| spirvShader->inputs[i + 3].Type != SpirvShader::ATTRIBTYPE_UNUSED) |
| { |
| Pointer<Byte> input = *Pointer<Pointer<Byte>>(data + OFFSET(DrawData, input) + sizeof(void *) * (i / 4)); |
| UInt stride = *Pointer<UInt>(data + OFFSET(DrawData, stride) + sizeof(uint32_t) * (i / 4)); |
| Int baseVertex = *Pointer<Int>(data + OFFSET(DrawData, baseVertex)); |
| UInt robustnessSize(0); |
| if(state.robustBufferAccess) |
| { |
| robustnessSize = *Pointer<UInt>(data + OFFSET(DrawData, robustnessSize) + sizeof(uint32_t) * (i / 4)); |
| } |
| |
| auto value = readStream(input, stride, state.input[i / 4], batch, state.robustBufferAccess, robustnessSize, baseVertex); |
| routine.inputs[i + 0] = value.x; |
| routine.inputs[i + 1] = value.y; |
| routine.inputs[i + 2] = value.z; |
| routine.inputs[i + 3] = value.w; |
| } |
| } |
| } |
| |
| void VertexRoutine::computeClipFlags() |
| { |
| auto it = spirvShader->outputBuiltins.find(spv::BuiltInPosition); |
| assert(it != spirvShader->outputBuiltins.end()); |
| assert(it->second.SizeInComponents == 4); |
| auto &pos = routine.getVariable(it->second.Id); |
| auto posX = pos[it->second.FirstComponent + 0]; |
| auto posY = pos[it->second.FirstComponent + 1]; |
| auto posZ = pos[it->second.FirstComponent + 2]; |
| auto posW = pos[it->second.FirstComponent + 3]; |
| |
| Int4 maxX = CmpLT(posW, posX); |
| Int4 maxY = CmpLT(posW, posY); |
| Int4 maxZ = CmpLT(posW, posZ); |
| Int4 minX = CmpNLE(-posW, posX); |
| Int4 minY = CmpNLE(-posW, posY); |
| Int4 minZ = CmpNLE(Float4(0.0f), posZ); |
| |
| clipFlags = Pointer<Int>(constants + OFFSET(Constants, maxX))[SignMask(maxX)]; |
| clipFlags |= Pointer<Int>(constants + OFFSET(Constants, maxY))[SignMask(maxY)]; |
| clipFlags |= Pointer<Int>(constants + OFFSET(Constants, maxZ))[SignMask(maxZ)]; |
| clipFlags |= Pointer<Int>(constants + OFFSET(Constants, minX))[SignMask(minX)]; |
| clipFlags |= Pointer<Int>(constants + OFFSET(Constants, minY))[SignMask(minY)]; |
| clipFlags |= Pointer<Int>(constants + OFFSET(Constants, minZ))[SignMask(minZ)]; |
| |
| Int4 finiteX = CmpLE(Abs(posX), *Pointer<Float4>(constants + OFFSET(Constants, maxPos))); |
| Int4 finiteY = CmpLE(Abs(posY), *Pointer<Float4>(constants + OFFSET(Constants, maxPos))); |
| Int4 finiteZ = CmpLE(Abs(posZ), *Pointer<Float4>(constants + OFFSET(Constants, maxPos))); |
| |
| Int4 finiteXYZ = finiteX & finiteY & finiteZ; |
| clipFlags |= Pointer<Int>(constants + OFFSET(Constants, fini))[SignMask(finiteXYZ)]; |
| } |
| |
| void VertexRoutine::computeCullMask() |
| { |
| cullMask = Int(15); |
| |
| auto it = spirvShader->outputBuiltins.find(spv::BuiltInCullDistance); |
| if(it != spirvShader->outputBuiltins.end()) |
| { |
| auto count = spirvShader->getNumOutputCullDistances(); |
| for(uint32_t i = 0; i < count; i++) |
| { |
| auto const &distance = routine.getVariable(it->second.Id)[it->second.FirstComponent + i]; |
| auto mask = SignMask(CmpGE(distance, SIMD::Float(0))); |
| cullMask &= mask; |
| } |
| } |
| } |
| |
| Vector4f VertexRoutine::readStream(Pointer<Byte> &buffer, UInt &stride, const Stream &stream, Pointer<UInt> &batch, |
| bool robustBufferAccess, UInt &robustnessSize, Int baseVertex) |
| { |
| Vector4f v; |
| // Because of the following rule in the Vulkan spec, we do not care if a very large negative |
| // baseVertex would overflow all the way back into a valid region of the index buffer: |
| // "Out-of-bounds buffer loads will return any of the following values : |
| // - Values from anywhere within the memory range(s) bound to the buffer (possibly including |
| // bytes of memory past the end of the buffer, up to the end of the bound range)." |
| UInt4 offsets = (*Pointer<UInt4>(As<Pointer<UInt4>>(batch)) + As<UInt4>(Int4(baseVertex))) * UInt4(stride); |
| |
| Pointer<Byte> source0 = buffer + offsets.x; |
| Pointer<Byte> source1 = buffer + offsets.y; |
| Pointer<Byte> source2 = buffer + offsets.z; |
| Pointer<Byte> source3 = buffer + offsets.w; |
| |
| vk::Format format(stream.format); |
| |
| UInt4 zero(0); |
| if(robustBufferAccess) |
| { |
| // TODO(b/141124876): Optimize for wide-vector gather operations. |
| UInt4 limits = offsets + UInt4(format.bytes()); |
| Pointer<Byte> zeroSource = As<Pointer<Byte>>(&zero); |
| source0 = IfThenElse(limits.x <= robustnessSize, source0, zeroSource); |
| source1 = IfThenElse(limits.y <= robustnessSize, source1, zeroSource); |
| source2 = IfThenElse(limits.z <= robustnessSize, source2, zeroSource); |
| source3 = IfThenElse(limits.w <= robustnessSize, source3, zeroSource); |
| } |
| |
| int componentCount = format.componentCount(); |
| bool normalized = !format.isUnnormalizedInteger(); |
| bool isNativeFloatAttrib = (stream.attribType == SpirvShader::ATTRIBTYPE_FLOAT) || normalized; |
| bool bgra = false; |
| |
| switch(stream.format) |
| { |
| case VK_FORMAT_R32_SFLOAT: |
| case VK_FORMAT_R32G32_SFLOAT: |
| case VK_FORMAT_R32G32B32_SFLOAT: |
| case VK_FORMAT_R32G32B32A32_SFLOAT: |
| { |
| if(componentCount == 0) |
| { |
| // Null stream, all default components |
| } |
| else |
| { |
| if(componentCount == 1) |
| { |
| v.x.x = *Pointer<Float>(source0); |
| v.x.y = *Pointer<Float>(source1); |
| v.x.z = *Pointer<Float>(source2); |
| v.x.w = *Pointer<Float>(source3); |
| } |
| else |
| { |
| v.x = *Pointer<Float4>(source0); |
| v.y = *Pointer<Float4>(source1); |
| v.z = *Pointer<Float4>(source2); |
| v.w = *Pointer<Float4>(source3); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| } |
| } |
| } |
| break; |
| case VK_FORMAT_B8G8R8A8_UNORM: |
| bgra = true; |
| // [[fallthrough]] |
| case VK_FORMAT_R8_UNORM: |
| case VK_FORMAT_R8G8_UNORM: |
| case VK_FORMAT_R8G8B8A8_UNORM: |
| case VK_FORMAT_A8B8G8R8_UNORM_PACK32: |
| v.x = Float4(*Pointer<Byte4>(source0)); |
| v.y = Float4(*Pointer<Byte4>(source1)); |
| v.z = Float4(*Pointer<Byte4>(source2)); |
| v.w = Float4(*Pointer<Byte4>(source3)); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| |
| if(componentCount >= 1) v.x *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleByte)); |
| if(componentCount >= 2) v.y *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleByte)); |
| if(componentCount >= 3) v.z *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleByte)); |
| if(componentCount >= 4) v.w *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleByte)); |
| break; |
| case VK_FORMAT_R8_UINT: |
| case VK_FORMAT_R8G8_UINT: |
| case VK_FORMAT_R8G8B8A8_UINT: |
| case VK_FORMAT_A8B8G8R8_UINT_PACK32: |
| v.x = As<Float4>(Int4(*Pointer<Byte4>(source0))); |
| v.y = As<Float4>(Int4(*Pointer<Byte4>(source1))); |
| v.z = As<Float4>(Int4(*Pointer<Byte4>(source2))); |
| v.w = As<Float4>(Int4(*Pointer<Byte4>(source3))); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| break; |
| case VK_FORMAT_R8_SNORM: |
| case VK_FORMAT_R8G8_SNORM: |
| case VK_FORMAT_R8G8B8A8_SNORM: |
| case VK_FORMAT_A8B8G8R8_SNORM_PACK32: |
| v.x = Float4(*Pointer<SByte4>(source0)); |
| v.y = Float4(*Pointer<SByte4>(source1)); |
| v.z = Float4(*Pointer<SByte4>(source2)); |
| v.w = Float4(*Pointer<SByte4>(source3)); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| |
| if(componentCount >= 1) v.x *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleSByte)); |
| if(componentCount >= 2) v.y *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleSByte)); |
| if(componentCount >= 3) v.z *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleSByte)); |
| if(componentCount >= 4) v.w *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleSByte)); |
| break; |
| case VK_FORMAT_R8_SINT: |
| case VK_FORMAT_R8G8_SINT: |
| case VK_FORMAT_R8G8B8A8_SINT: |
| case VK_FORMAT_A8B8G8R8_SINT_PACK32: |
| v.x = As<Float4>(Int4(*Pointer<SByte4>(source0))); |
| v.y = As<Float4>(Int4(*Pointer<SByte4>(source1))); |
| v.z = As<Float4>(Int4(*Pointer<SByte4>(source2))); |
| v.w = As<Float4>(Int4(*Pointer<SByte4>(source3))); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| break; |
| case VK_FORMAT_R16_SNORM: |
| case VK_FORMAT_R16G16_SNORM: |
| case VK_FORMAT_R16G16B16A16_SNORM: |
| v.x = Float4(*Pointer<Short4>(source0)); |
| v.y = Float4(*Pointer<Short4>(source1)); |
| v.z = Float4(*Pointer<Short4>(source2)); |
| v.w = Float4(*Pointer<Short4>(source3)); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| |
| if(componentCount >= 1) v.x *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleShort)); |
| if(componentCount >= 2) v.y *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleShort)); |
| if(componentCount >= 3) v.z *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleShort)); |
| if(componentCount >= 4) v.w *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleShort)); |
| break; |
| case VK_FORMAT_R16_SINT: |
| case VK_FORMAT_R16G16_SINT: |
| case VK_FORMAT_R16G16B16A16_SINT: |
| v.x = As<Float4>(Int4(*Pointer<Short4>(source0))); |
| v.y = As<Float4>(Int4(*Pointer<Short4>(source1))); |
| v.z = As<Float4>(Int4(*Pointer<Short4>(source2))); |
| v.w = As<Float4>(Int4(*Pointer<Short4>(source3))); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| break; |
| case VK_FORMAT_R16_UNORM: |
| case VK_FORMAT_R16G16_UNORM: |
| case VK_FORMAT_R16G16B16A16_UNORM: |
| v.x = Float4(*Pointer<UShort4>(source0)); |
| v.y = Float4(*Pointer<UShort4>(source1)); |
| v.z = Float4(*Pointer<UShort4>(source2)); |
| v.w = Float4(*Pointer<UShort4>(source3)); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| |
| if(componentCount >= 1) v.x *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleUShort)); |
| if(componentCount >= 2) v.y *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleUShort)); |
| if(componentCount >= 3) v.z *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleUShort)); |
| if(componentCount >= 4) v.w *= *Pointer<Float4>(constants + OFFSET(Constants, unscaleUShort)); |
| break; |
| case VK_FORMAT_R16_UINT: |
| case VK_FORMAT_R16G16_UINT: |
| case VK_FORMAT_R16G16B16A16_UINT: |
| v.x = As<Float4>(Int4(*Pointer<UShort4>(source0))); |
| v.y = As<Float4>(Int4(*Pointer<UShort4>(source1))); |
| v.z = As<Float4>(Int4(*Pointer<UShort4>(source2))); |
| v.w = As<Float4>(Int4(*Pointer<UShort4>(source3))); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| break; |
| case VK_FORMAT_R32_SINT: |
| case VK_FORMAT_R32G32_SINT: |
| case VK_FORMAT_R32G32B32_SINT: |
| case VK_FORMAT_R32G32B32A32_SINT: |
| v.x = *Pointer<Float4>(source0); |
| v.y = *Pointer<Float4>(source1); |
| v.z = *Pointer<Float4>(source2); |
| v.w = *Pointer<Float4>(source3); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| break; |
| case VK_FORMAT_R32_UINT: |
| case VK_FORMAT_R32G32_UINT: |
| case VK_FORMAT_R32G32B32_UINT: |
| case VK_FORMAT_R32G32B32A32_UINT: |
| v.x = *Pointer<Float4>(source0); |
| v.y = *Pointer<Float4>(source1); |
| v.z = *Pointer<Float4>(source2); |
| v.w = *Pointer<Float4>(source3); |
| |
| transpose4xN(v.x, v.y, v.z, v.w, componentCount); |
| break; |
| case VK_FORMAT_R16_SFLOAT: |
| case VK_FORMAT_R16G16_SFLOAT: |
| case VK_FORMAT_R16G16B16A16_SFLOAT: |
| { |
| if(componentCount >= 1) |
| { |
| UShort x0 = *Pointer<UShort>(source0 + 0); |
| UShort x1 = *Pointer<UShort>(source1 + 0); |
| UShort x2 = *Pointer<UShort>(source2 + 0); |
| UShort x3 = *Pointer<UShort>(source3 + 0); |
| |
| v.x.x = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(x0) * 4); |
| v.x.y = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(x1) * 4); |
| v.x.z = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(x2) * 4); |
| v.x.w = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(x3) * 4); |
| } |
| |
| if(componentCount >= 2) |
| { |
| UShort y0 = *Pointer<UShort>(source0 + 2); |
| UShort y1 = *Pointer<UShort>(source1 + 2); |
| UShort y2 = *Pointer<UShort>(source2 + 2); |
| UShort y3 = *Pointer<UShort>(source3 + 2); |
| |
| v.y.x = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(y0) * 4); |
| v.y.y = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(y1) * 4); |
| v.y.z = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(y2) * 4); |
| v.y.w = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(y3) * 4); |
| } |
| |
| if(componentCount >= 3) |
| { |
| UShort z0 = *Pointer<UShort>(source0 + 4); |
| UShort z1 = *Pointer<UShort>(source1 + 4); |
| UShort z2 = *Pointer<UShort>(source2 + 4); |
| UShort z3 = *Pointer<UShort>(source3 + 4); |
| |
| v.z.x = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(z0) * 4); |
| v.z.y = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(z1) * 4); |
| v.z.z = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(z2) * 4); |
| v.z.w = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(z3) * 4); |
| } |
| |
| if(componentCount >= 4) |
| { |
| UShort w0 = *Pointer<UShort>(source0 + 6); |
| UShort w1 = *Pointer<UShort>(source1 + 6); |
| UShort w2 = *Pointer<UShort>(source2 + 6); |
| UShort w3 = *Pointer<UShort>(source3 + 6); |
| |
| v.w.x = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(w0) * 4); |
| v.w.y = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(w1) * 4); |
| v.w.z = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(w2) * 4); |
| v.w.w = *Pointer<Float>(constants + OFFSET(Constants, half2float) + Int(w3) * 4); |
| } |
| } |
| break; |
| case VK_FORMAT_A2R10G10B10_SNORM_PACK32: |
| bgra = true; |
| // [[fallthrough]] |
| case VK_FORMAT_A2B10G10R10_SNORM_PACK32: |
| { |
| Int4 src; |
| src = Insert(src, *Pointer<Int>(source0), 0); |
| src = Insert(src, *Pointer<Int>(source1), 1); |
| src = Insert(src, *Pointer<Int>(source2), 2); |
| src = Insert(src, *Pointer<Int>(source3), 3); |
| v.x = Float4((src << 22) >> 22); |
| v.y = Float4((src << 12) >> 22); |
| v.z = Float4((src << 02) >> 22); |
| v.w = Float4(src >> 30); |
| |
| v.x = Max(v.x * Float4(1.0f / 0x1FF), Float4(-1.0f)); |
| v.y = Max(v.y * Float4(1.0f / 0x1FF), Float4(-1.0f)); |
| v.z = Max(v.z * Float4(1.0f / 0x1FF), Float4(-1.0f)); |
| v.w = Max(v.w, Float4(-1.0f)); |
| } |
| break; |
| case VK_FORMAT_A2R10G10B10_SINT_PACK32: |
| bgra = true; |
| // [[fallthrough]] |
| case VK_FORMAT_A2B10G10R10_SINT_PACK32: |
| { |
| Int4 src; |
| src = Insert(src, *Pointer<Int>(source0), 0); |
| src = Insert(src, *Pointer<Int>(source1), 1); |
| src = Insert(src, *Pointer<Int>(source2), 2); |
| src = Insert(src, *Pointer<Int>(source3), 3); |
| v.x = As<Float4>((src << 22) >> 22); |
| v.y = As<Float4>((src << 12) >> 22); |
| v.z = As<Float4>((src << 02) >> 22); |
| v.w = As<Float4>(src >> 30); |
| } |
| break; |
| case VK_FORMAT_A2R10G10B10_UNORM_PACK32: |
| bgra = true; |
| // [[fallthrough]] |
| case VK_FORMAT_A2B10G10R10_UNORM_PACK32: |
| { |
| Int4 src; |
| src = Insert(src, *Pointer<Int>(source0), 0); |
| src = Insert(src, *Pointer<Int>(source1), 1); |
| src = Insert(src, *Pointer<Int>(source2), 2); |
| src = Insert(src, *Pointer<Int>(source3), 3); |
| |
| v.x = Float4(src & Int4(0x3FF)); |
| v.y = Float4((src >> 10) & Int4(0x3FF)); |
| v.z = Float4((src >> 20) & Int4(0x3FF)); |
| v.w = Float4((src >> 30) & Int4(0x3)); |
| |
| v.x *= Float4(1.0f / 0x3FF); |
| v.y *= Float4(1.0f / 0x3FF); |
| v.z *= Float4(1.0f / 0x3FF); |
| v.w *= Float4(1.0f / 0x3); |
| } |
| break; |
| case VK_FORMAT_A2R10G10B10_UINT_PACK32: |
| bgra = true; |
| // [[fallthrough]] |
| case VK_FORMAT_A2B10G10R10_UINT_PACK32: |
| { |
| Int4 src; |
| src = Insert(src, *Pointer<Int>(source0), 0); |
| src = Insert(src, *Pointer<Int>(source1), 1); |
| src = Insert(src, *Pointer<Int>(source2), 2); |
| src = Insert(src, *Pointer<Int>(source3), 3); |
| |
| v.x = As<Float4>(src & Int4(0x3FF)); |
| v.y = As<Float4>((src >> 10) & Int4(0x3FF)); |
| v.z = As<Float4>((src >> 20) & Int4(0x3FF)); |
| v.w = As<Float4>((src >> 30) & Int4(0x3)); |
| } |
| break; |
| default: |
| UNSUPPORTED("stream.format %d", int(stream.format)); |
| } |
| |
| if(bgra) |
| { |
| // Swap red and blue |
| Float4 t = v.x; |
| v.x = v.z; |
| v.z = t; |
| } |
| |
| if(componentCount < 1) v.x = Float4(0.0f); |
| if(componentCount < 2) v.y = Float4(0.0f); |
| if(componentCount < 3) v.z = Float4(0.0f); |
| if(componentCount < 4) v.w = isNativeFloatAttrib ? As<Float4>(Float4(1.0f)) : As<Float4>(Int4(1)); |
| |
| return v; |
| } |
| |
| void VertexRoutine::writeCache(Pointer<Byte> &vertexCache, Pointer<UInt> &tagCache, Pointer<UInt> &batch) |
| { |
| UInt index0 = batch[0]; |
| UInt index1 = batch[1]; |
| UInt index2 = batch[2]; |
| UInt index3 = batch[3]; |
| |
| UInt cacheIndex0 = index0 & VertexCache::TAG_MASK; |
| UInt cacheIndex1 = index1 & VertexCache::TAG_MASK; |
| UInt cacheIndex2 = index2 & VertexCache::TAG_MASK; |
| UInt cacheIndex3 = index3 & VertexCache::TAG_MASK; |
| |
| // We processed a SIMD group of vertices, with the first one being the one that missed the cache tag check. |
| // Write them out in reverse order here and below to ensure the first one is now guaranteed to be in the cache. |
| tagCache[cacheIndex3] = index3; |
| tagCache[cacheIndex2] = index2; |
| tagCache[cacheIndex1] = index1; |
| tagCache[cacheIndex0] = index0; |
| |
| auto it = spirvShader->outputBuiltins.find(spv::BuiltInPosition); |
| assert(it != spirvShader->outputBuiltins.end()); |
| assert(it->second.SizeInComponents == 4); |
| auto &position = routine.getVariable(it->second.Id); |
| |
| Vector4f pos; |
| pos.x = position[it->second.FirstComponent + 0]; |
| pos.y = position[it->second.FirstComponent + 1]; |
| pos.z = position[it->second.FirstComponent + 2]; |
| pos.w = position[it->second.FirstComponent + 3]; |
| |
| // Projection and viewport transform. |
| Float4 w = As<Float4>(As<Int4>(pos.w) | (As<Int4>(CmpEQ(pos.w, Float4(0.0f))) & As<Int4>(Float4(1.0f)))); |
| Float4 rhw = Float4(1.0f) / w; |
| |
| Vector4f proj; |
| proj.x = As<Float4>(RoundInt(*Pointer<Float4>(data + OFFSET(DrawData, X0xF)) + pos.x * rhw * *Pointer<Float4>(data + OFFSET(DrawData, WxF)))); |
| proj.y = As<Float4>(RoundInt(*Pointer<Float4>(data + OFFSET(DrawData, Y0xF)) + pos.y * rhw * *Pointer<Float4>(data + OFFSET(DrawData, HxF)))); |
| proj.z = pos.z * rhw; |
| proj.w = rhw; |
| |
| transpose4x4(pos.x, pos.y, pos.z, pos.w); |
| |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex3 + OFFSET(Vertex, position), 16) = pos.w; |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex2 + OFFSET(Vertex, position), 16) = pos.z; |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex1 + OFFSET(Vertex, position), 16) = pos.y; |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex0 + OFFSET(Vertex, position), 16) = pos.x; |
| |
| it = spirvShader->outputBuiltins.find(spv::BuiltInPointSize); |
| if(it != spirvShader->outputBuiltins.end()) |
| { |
| ASSERT(it->second.SizeInComponents == 1); |
| auto psize = routine.getVariable(it->second.Id)[it->second.FirstComponent]; |
| |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex3 + OFFSET(Vertex, pointSize)) = Extract(psize, 3); |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex2 + OFFSET(Vertex, pointSize)) = Extract(psize, 2); |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex1 + OFFSET(Vertex, pointSize)) = Extract(psize, 1); |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex0 + OFFSET(Vertex, pointSize)) = Extract(psize, 0); |
| } |
| |
| it = spirvShader->outputBuiltins.find(spv::BuiltInClipDistance); |
| if(it != spirvShader->outputBuiltins.end()) |
| { |
| auto count = spirvShader->getNumOutputClipDistances(); |
| for(unsigned int i = 0; i < count; i++) |
| { |
| auto dist = routine.getVariable(it->second.Id)[it->second.FirstComponent + i]; |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex3 + OFFSET(Vertex, clipDistance[i])) = Extract(dist, 3); |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex2 + OFFSET(Vertex, clipDistance[i])) = Extract(dist, 2); |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex1 + OFFSET(Vertex, clipDistance[i])) = Extract(dist, 1); |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex0 + OFFSET(Vertex, clipDistance[i])) = Extract(dist, 0); |
| } |
| } |
| |
| it = spirvShader->outputBuiltins.find(spv::BuiltInCullDistance); |
| if(it != spirvShader->outputBuiltins.end()) |
| { |
| auto count = spirvShader->getNumOutputCullDistances(); |
| for(unsigned int i = 0; i < count; i++) |
| { |
| auto dist = routine.getVariable(it->second.Id)[it->second.FirstComponent + i]; |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex3 + OFFSET(Vertex, cullDistance[i])) = Extract(dist, 3); |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex2 + OFFSET(Vertex, cullDistance[i])) = Extract(dist, 2); |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex1 + OFFSET(Vertex, cullDistance[i])) = Extract(dist, 1); |
| *Pointer<Float>(vertexCache + sizeof(Vertex) * cacheIndex0 + OFFSET(Vertex, cullDistance[i])) = Extract(dist, 0); |
| } |
| } |
| |
| *Pointer<Int>(vertexCache + sizeof(Vertex) * cacheIndex3 + OFFSET(Vertex, clipFlags)) = (clipFlags >> 24) & 0x0000000FF; |
| *Pointer<Int>(vertexCache + sizeof(Vertex) * cacheIndex2 + OFFSET(Vertex, clipFlags)) = (clipFlags >> 16) & 0x0000000FF; |
| *Pointer<Int>(vertexCache + sizeof(Vertex) * cacheIndex1 + OFFSET(Vertex, clipFlags)) = (clipFlags >> 8) & 0x0000000FF; |
| *Pointer<Int>(vertexCache + sizeof(Vertex) * cacheIndex0 + OFFSET(Vertex, clipFlags)) = (clipFlags >> 0) & 0x0000000FF; |
| |
| *Pointer<Int>(vertexCache + sizeof(Vertex) * cacheIndex3 + OFFSET(Vertex, cullMask)) = -((cullMask >> 3) & 1); |
| *Pointer<Int>(vertexCache + sizeof(Vertex) * cacheIndex2 + OFFSET(Vertex, cullMask)) = -((cullMask >> 2) & 1); |
| *Pointer<Int>(vertexCache + sizeof(Vertex) * cacheIndex1 + OFFSET(Vertex, cullMask)) = -((cullMask >> 1) & 1); |
| *Pointer<Int>(vertexCache + sizeof(Vertex) * cacheIndex0 + OFFSET(Vertex, cullMask)) = -((cullMask >> 0) & 1); |
| |
| transpose4x4(proj.x, proj.y, proj.z, proj.w); |
| |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex3 + OFFSET(Vertex, projected), 16) = proj.w; |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex2 + OFFSET(Vertex, projected), 16) = proj.z; |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex1 + OFFSET(Vertex, projected), 16) = proj.y; |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex0 + OFFSET(Vertex, projected), 16) = proj.x; |
| |
| for(int i = 0; i < MAX_INTERFACE_COMPONENTS; i += 4) |
| { |
| if(spirvShader->outputs[i + 0].Type != SpirvShader::ATTRIBTYPE_UNUSED || |
| spirvShader->outputs[i + 1].Type != SpirvShader::ATTRIBTYPE_UNUSED || |
| spirvShader->outputs[i + 2].Type != SpirvShader::ATTRIBTYPE_UNUSED || |
| spirvShader->outputs[i + 3].Type != SpirvShader::ATTRIBTYPE_UNUSED) |
| { |
| Vector4f v; |
| v.x = routine.outputs[i + 0]; |
| v.y = routine.outputs[i + 1]; |
| v.z = routine.outputs[i + 2]; |
| v.w = routine.outputs[i + 3]; |
| |
| transpose4x4(v.x, v.y, v.z, v.w); |
| |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex3 + OFFSET(Vertex, v[i]), 16) = v.w; |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex2 + OFFSET(Vertex, v[i]), 16) = v.z; |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex1 + OFFSET(Vertex, v[i]), 16) = v.y; |
| *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex0 + OFFSET(Vertex, v[i]), 16) = v.x; |
| } |
| } |
| } |
| |
| void VertexRoutine::writeVertex(const Pointer<Byte> &vertex, Pointer<Byte> &cacheEntry) |
| { |
| *Pointer<Int4>(vertex + OFFSET(Vertex, position)) = *Pointer<Int4>(cacheEntry + OFFSET(Vertex, position)); |
| *Pointer<Int>(vertex + OFFSET(Vertex, pointSize)) = *Pointer<Int>(cacheEntry + OFFSET(Vertex, pointSize)); |
| |
| *Pointer<Int>(vertex + OFFSET(Vertex, clipFlags)) = *Pointer<Int>(cacheEntry + OFFSET(Vertex, clipFlags)); |
| *Pointer<Int>(vertex + OFFSET(Vertex, cullMask)) = *Pointer<Int>(cacheEntry + OFFSET(Vertex, cullMask)); |
| *Pointer<Int4>(vertex + OFFSET(Vertex, projected)) = *Pointer<Int4>(cacheEntry + OFFSET(Vertex, projected)); |
| |
| for(int i = 0; i < MAX_INTERFACE_COMPONENTS; i++) |
| { |
| if(spirvShader->outputs[i].Type != SpirvShader::ATTRIBTYPE_UNUSED) |
| { |
| *Pointer<Int>(vertex + OFFSET(Vertex, v[i]), 4) = *Pointer<Int>(cacheEntry + OFFSET(Vertex, v[i]), 4); |
| } |
| } |
| for(unsigned int i = 0; i < spirvShader->getNumOutputClipDistances(); i++) |
| { |
| *Pointer<Float>(vertex + OFFSET(Vertex, clipDistance[i]), 4) = *Pointer<Float>(cacheEntry + OFFSET(Vertex, clipDistance[i]), 4); |
| } |
| for(unsigned int i = 0; i < spirvShader->getNumOutputCullDistances(); i++) |
| { |
| *Pointer<Float>(vertex + OFFSET(Vertex, cullDistance[i]), 4) = *Pointer<Float>(cacheEntry + OFFSET(Vertex, cullDistance[i]), 4); |
| } |
| } |
| |
| } // namespace sw |