src/Renderer/QuadRasterizer.cpp - SwiftShader - Git at Google

 // 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 "QuadRasterizer.hpp"

 #include "Primitive.hpp"
 #include "Renderer.hpp"
 #include "Shader/Constants.hpp"
 #include "Common/Math.hpp"
 #include "Common/Debug.hpp"

 namespace sw
 {
 	extern bool veryEarlyDepthTest;
 	extern bool complementaryDepthBuffer;
 	extern bool fullPixelPositionRegister;

 	extern int clusterCount;

 	QuadRasterizer::QuadRasterizer(const PixelProcessor::State &state, const PixelShader *pixelShader) : state(state), shader(pixelShader)
 	{
 	}

 	QuadRasterizer::~QuadRasterizer()
 	{
 	}

 	void QuadRasterizer::generate()
 	{
 		#if PERF_PROFILE
 			for(int i = 0; i < PERF_TIMERS; i++)
 			{
 				cycles[i] = 0;
 			}

 			Long pixelTime = Ticks();
 		#endif

 		constants = *Pointer<Pointer<Byte>>(data + OFFSET(DrawData,constants));
 		occlusion = 0;
 		int clusterCount = Renderer::getClusterCount();

 		Do
 		{
 			yMin = *Pointer<Int>(primitive + OFFSET(Primitive,yMin));
 			yMax = *Pointer<Int>(primitive + OFFSET(Primitive,yMax));

 			Int cluster2 = cluster + cluster;
 			yMin += clusterCount * 2 - 2 - cluster2;
 			yMin &= -clusterCount * 2;
 			yMin += cluster2;

 			If(yMin < yMax)
 			{
 				rasterize();
 			}

 			primitive += sizeof(Primitive) * state.multiSample;
 			count--;
 		}
 		Until(count == 0);

 		if(state.occlusionEnabled)
 		{
 			UInt clusterOcclusion = *Pointer<UInt>(data + OFFSET(DrawData,occlusion) + 4 * cluster);
 			clusterOcclusion += occlusion;
 			*Pointer<UInt>(data + OFFSET(DrawData,occlusion) + 4 * cluster) = clusterOcclusion;
 		}

 		#if PERF_PROFILE
 			cycles[PERF_PIXEL] = Ticks() - pixelTime;

 			for(int i = 0; i < PERF_TIMERS; i++)
 			{
 				*Pointer<Long>(data + OFFSET(DrawData,cycles[i]) + 8 * cluster) += cycles[i];
 			}
 		#endif

 		Return();
 	}

 	void QuadRasterizer::rasterize()
 	{
 		Pointer<Byte> cBuffer[RENDERTARGETS];
 		Pointer<Byte> zBuffer;
 		Pointer<Byte> sBuffer;

 		for(int index = 0; index < RENDERTARGETS; index++)
 		{
 			if(state.colorWriteActive(index))
 			{
 				cBuffer[index] = *Pointer<Pointer<Byte>>(data + OFFSET(DrawData,colorBuffer[index])) + yMin * *Pointer<Int>(data + OFFSET(DrawData,colorPitchB[index]));
 			}
 		}

 		if(state.depthTestActive)
 		{
 			zBuffer = *Pointer<Pointer<Byte>>(data + OFFSET(DrawData,depthBuffer)) + yMin * *Pointer<Int>(data + OFFSET(DrawData,depthPitchB));
 		}

 		if(state.stencilActive)
 		{
 			sBuffer = *Pointer<Pointer<Byte>>(data + OFFSET(DrawData,stencilBuffer)) + yMin * *Pointer<Int>(data + OFFSET(DrawData,stencilPitchB));
 		}

 		y = yMin;

 		Do
 		{
 			Int x0a = Int(*Pointer<Short>(primitive + OFFSET(Primitive,outline->left) + (y + 0) * sizeof(Primitive::Span)));
 			Int x0b = Int(*Pointer<Short>(primitive + OFFSET(Primitive,outline->left) + (y + 1) * sizeof(Primitive::Span)));
 			Int x0 = Min(x0a, x0b);

 			for(unsigned int q = 1; q < state.multiSample; q++)
 			{
 				x0a = Int(*Pointer<Short>(primitive + q * sizeof(Primitive) + OFFSET(Primitive,outline->left) + (y + 0) * sizeof(Primitive::Span)));
 				x0b = Int(*Pointer<Short>(primitive + q * sizeof(Primitive) + OFFSET(Primitive,outline->left) + (y + 1) * sizeof(Primitive::Span)));
 				x0 = Min(x0, Min(x0a, x0b));
 			}

 			x0 &= 0xFFFFFFFE;

 			Int x1a = Int(*Pointer<Short>(primitive + OFFSET(Primitive,outline->right) + (y + 0) * sizeof(Primitive::Span)));
 			Int x1b = Int(*Pointer<Short>(primitive + OFFSET(Primitive,outline->right) + (y + 1) * sizeof(Primitive::Span)));
 			Int x1 = Max(x1a, x1b);

 			for(unsigned int q = 1; q < state.multiSample; q++)
 			{
 				x1a = Int(*Pointer<Short>(primitive + q * sizeof(Primitive) + OFFSET(Primitive,outline->right) + (y + 0) * sizeof(Primitive::Span)));
 				x1b = Int(*Pointer<Short>(primitive + q * sizeof(Primitive) + OFFSET(Primitive,outline->right) + (y + 1) * sizeof(Primitive::Span)));
 				x1 = Max(x1, Max(x1a, x1b));
 			}

 			Float4 yyyy = Float4(Float(y)) + *Pointer<Float4>(primitive + OFFSET(Primitive,yQuad), 16);

 			if(interpolateZ())
 			{
 				for(unsigned int q = 0; q < state.multiSample; q++)
 				{
 					Float4 y = yyyy;

 					if(state.multiSample > 1)
 					{
 						y -= *Pointer<Float4>(constants + OFFSET(Constants,Y) + q * sizeof(float4));
 					}

 					Dz[q] = *Pointer<Float4>(primitive + OFFSET(Primitive,z.C), 16) + y * *Pointer<Float4>(primitive + OFFSET(Primitive,z.B), 16);
 				}
 			}

 			if(veryEarlyDepthTest && state.multiSample == 1 && !state.depthOverride)
 			{
 				if(!state.stencilActive && state.depthTestActive && (state.depthCompareMode == DEPTH_LESSEQUAL || state.depthCompareMode == DEPTH_LESS))   // FIXME: Both modes ok?
 				{
 					Float4 xxxx = Float4(Float(x0)) + *Pointer<Float4>(primitive + OFFSET(Primitive,xQuad), 16);

 					Pointer<Byte> buffer;
 					Int pitch;

 					if(!state.quadLayoutDepthBuffer)
 					{
 						buffer = zBuffer + 4 * x0;
 						pitch = *Pointer<Int>(data + OFFSET(DrawData,depthPitchB));
 					}
 					else
 					{
 						buffer = zBuffer + 8 * x0;
 					}

 					For(Int x = x0, x < x1, x += 2)
 					{
 						Float4 z = interpolate(xxxx, Dz[0], z, primitive + OFFSET(Primitive,z), false, false, state.depthClamp);

 						Float4 zValue;

 						if(!state.quadLayoutDepthBuffer)
 						{
 							// FIXME: Properly optimizes?
 							zValue.xy = *Pointer<Float4>(buffer);
 							zValue.zw = *Pointer<Float4>(buffer + pitch - 8);
 						}
 						else
 						{
 							zValue = *Pointer<Float4>(buffer, 16);
 						}

 						Int4 zTest;

 						if(complementaryDepthBuffer)
 						{
 							zTest = CmpLE(zValue, z);
 						}
 						else
 						{
 							zTest = CmpNLT(zValue, z);
 						}

 						Int zMask = SignMask(zTest);

 						If(zMask == 0)
 						{
 							x0 += 2;
 						}
 						Else
 						{
 							x = x1;
 						}

 						xxxx += Float4(2);

 						if(!state.quadLayoutDepthBuffer)
 						{
 							buffer += 8;
 						}
 						else
 						{
 							buffer += 16;
 						}
 					}
 				}
 			}

 			If(x0 < x1)
 			{
 				if(interpolateW())
 				{
 					Dw = *Pointer<Float4>(primitive + OFFSET(Primitive,w.C), 16) + yyyy * *Pointer<Float4>(primitive + OFFSET(Primitive,w.B), 16);
 				}

 				for(int interpolant = 0; interpolant < MAX_FRAGMENT_INPUTS; interpolant++)
 				{
 					for(int component = 0; component < 4; component++)
 					{
 						if(state.interpolant[interpolant].component & (1 << component))
 						{
 							Dv[interpolant][component] = *Pointer<Float4>(primitive + OFFSET(Primitive,V[interpolant][component].C), 16);

 							if(!(state.interpolant[interpolant].flat & (1 << component)))
 							{
 								Dv[interpolant][component] += yyyy * *Pointer<Float4>(primitive + OFFSET(Primitive,V[interpolant][component].B), 16);
 							}
 						}
 					}
 				}

 				if(state.fog.component)
 				{
 					Df = *Pointer<Float4>(primitive + OFFSET(Primitive,f.C), 16);

 					if(!state.fog.flat)
 					{
 						Df += yyyy * *Pointer<Float4>(primitive + OFFSET(Primitive,f.B), 16);
 					}
 				}

 				Short4 xLeft[4];
 				Short4 xRight[4];

 				for(unsigned int q = 0; q < state.multiSample; q++)
 				{
 					xLeft[q] = *Pointer<Short4>(primitive + q * sizeof(Primitive) + OFFSET(Primitive,outline) + y * sizeof(Primitive::Span));
 					xRight[q] = xLeft[q];

 					xLeft[q] = Swizzle(xLeft[q], 0x0022) - Short4(1, 2, 1, 2);
 					xRight[q] = Swizzle(xRight[q], 0x1133) - Short4(0, 1, 0, 1);
 				}

 				For(Int x = x0, x < x1, x += 2)
 				{
 					Short4 xxxx = Short4(x);
 					Int cMask[4];

 					for(unsigned int q = 0; q < state.multiSample; q++)
 					{
 						Short4 mask = CmpGT(xxxx, xLeft[q]) & CmpGT(xRight[q], xxxx);
 						cMask[q] = SignMask(PackSigned(mask, mask)) & 0x0000000F;
 					}

 					quad(cBuffer, zBuffer, sBuffer, cMask, x);
 				}
 			}

 			int clusterCount = Renderer::getClusterCount();

 			for(int index = 0; index < RENDERTARGETS; index++)
 			{
 				if(state.colorWriteActive(index))
 				{
 					cBuffer[index] += *Pointer<Int>(data + OFFSET(DrawData,colorPitchB[index])) << (1 + sw::log2(clusterCount));   // FIXME: Precompute
 				}
 			}

 			if(state.depthTestActive)
 			{
 				zBuffer += *Pointer<Int>(data + OFFSET(DrawData,depthPitchB)) << (1 + sw::log2(clusterCount));   // FIXME: Precompute
 			}

 			if(state.stencilActive)
 			{
 				sBuffer += *Pointer<Int>(data + OFFSET(DrawData,stencilPitchB)) << (1 + sw::log2(clusterCount));   // FIXME: Precompute
 			}

 			y += 2 * clusterCount;
 		}
 		Until(y >= yMax);
 	}

 	Float4 QuadRasterizer::interpolate(Float4 &x, Float4 &D, Float4 &rhw, Pointer<Byte> planeEquation, bool flat, bool perspective, bool clamp)
 	{
 		Float4 interpolant = D;

 		if(!flat)
 		{
 			interpolant += x * *Pointer<Float4>(planeEquation + OFFSET(PlaneEquation, A), 16);

 			if(perspective)
 			{
 				interpolant *= rhw;
 			}
 		}

 		if(clamp)
 		{
 			interpolant = Min(Max(interpolant, Float4(0.0f)), Float4(1.0f));
 		}

 		return interpolant;
 	}

 	bool QuadRasterizer::interpolateZ() const
 	{
 		return state.depthTestActive || state.pixelFogActive() || (shader && shader->isVPosDeclared() && fullPixelPositionRegister);
 	}

 	bool QuadRasterizer::interpolateW() const
 	{
 		return state.perspective || (shader && shader->isVPosDeclared() && fullPixelPositionRegister);
 	}
 }
	// 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 "QuadRasterizer.hpp"

	#include "Primitive.hpp"
	#include "Renderer.hpp"
	#include "Shader/Constants.hpp"
	#include "Common/Math.hpp"
	#include "Common/Debug.hpp"

	namespace sw
	{
	extern bool veryEarlyDepthTest;
	extern bool complementaryDepthBuffer;
	extern bool fullPixelPositionRegister;

	extern int clusterCount;

	QuadRasterizer::QuadRasterizer(const PixelProcessor::State &state, const PixelShader *pixelShader) : state(state), shader(pixelShader)
	{
	}

	QuadRasterizer::~QuadRasterizer()
	{
	}

	void QuadRasterizer::generate()
	{
	#if PERF_PROFILE
	for(int i = 0; i < PERF_TIMERS; i++)
	{
	cycles[i] = 0;
	}

	Long pixelTime = Ticks();
	#endif

	constants = *Pointer<Pointer<Byte>>(data + OFFSET(DrawData,constants));
	occlusion = 0;
	int clusterCount = Renderer::getClusterCount();

	Do
	{
	yMin = *Pointer<Int>(primitive + OFFSET(Primitive,yMin));
	yMax = *Pointer<Int>(primitive + OFFSET(Primitive,yMax));

	Int cluster2 = cluster + cluster;
	yMin += clusterCount * 2 - 2 - cluster2;
	yMin &= -clusterCount * 2;
	yMin += cluster2;

	If(yMin < yMax)
	{
	rasterize();
	}

	primitive += sizeof(Primitive) * state.multiSample;
	count--;
	}
	Until(count == 0);

	if(state.occlusionEnabled)
	{
	UInt clusterOcclusion = Pointer<UInt>(data + OFFSET(DrawData,occlusion) + 4 cluster);
	clusterOcclusion += occlusion;
	Pointer<UInt>(data + OFFSET(DrawData,occlusion) + 4 cluster) = clusterOcclusion;
	}

	#if PERF_PROFILE
	cycles[PERF_PIXEL] = Ticks() - pixelTime;

	for(int i = 0; i < PERF_TIMERS; i++)
	{
	Pointer<Long>(data + OFFSET(DrawData,cycles[i]) + 8 cluster) += cycles[i];
	}
	#endif

	Return();
	}

	void QuadRasterizer::rasterize()
	{
	Pointer<Byte> cBuffer[RENDERTARGETS];
	Pointer<Byte> zBuffer;
	Pointer<Byte> sBuffer;

	for(int index = 0; index < RENDERTARGETS; index++)
	{
	if(state.colorWriteActive(index))
	{
	cBuffer[index] = Pointer<Pointer<Byte>>(data + OFFSET(DrawData,colorBuffer[index])) + yMin *Pointer<Int>(data + OFFSET(DrawData,colorPitchB[index]));
	}
	}

	if(state.depthTestActive)
	{
	zBuffer = Pointer<Pointer<Byte>>(data + OFFSET(DrawData,depthBuffer)) + yMin *Pointer<Int>(data + OFFSET(DrawData,depthPitchB));
	}

	if(state.stencilActive)
	{
	sBuffer = Pointer<Pointer<Byte>>(data + OFFSET(DrawData,stencilBuffer)) + yMin *Pointer<Int>(data + OFFSET(DrawData,stencilPitchB));
	}

	y = yMin;

	Do
	{
	Int x0a = Int(Pointer<Short>(primitive + OFFSET(Primitive,outline->left) + (y + 0) sizeof(Primitive::Span)));
	Int x0b = Int(Pointer<Short>(primitive + OFFSET(Primitive,outline->left) + (y + 1) sizeof(Primitive::Span)));
	Int x0 = Min(x0a, x0b);

	for(unsigned int q = 1; q < state.multiSample; q++)
	{
	x0a = Int(Pointer<Short>(primitive + q sizeof(Primitive) + OFFSET(Primitive,outline->left) + (y + 0) * sizeof(Primitive::Span)));
	x0b = Int(Pointer<Short>(primitive + q sizeof(Primitive) + OFFSET(Primitive,outline->left) + (y + 1) * sizeof(Primitive::Span)));
	x0 = Min(x0, Min(x0a, x0b));
	}

	x0 &= 0xFFFFFFFE;

	Int x1a = Int(Pointer<Short>(primitive + OFFSET(Primitive,outline->right) + (y + 0) sizeof(Primitive::Span)));
	Int x1b = Int(Pointer<Short>(primitive + OFFSET(Primitive,outline->right) + (y + 1) sizeof(Primitive::Span)));
	Int x1 = Max(x1a, x1b);

	for(unsigned int q = 1; q < state.multiSample; q++)
	{
	x1a = Int(Pointer<Short>(primitive + q sizeof(Primitive) + OFFSET(Primitive,outline->right) + (y + 0) * sizeof(Primitive::Span)));
	x1b = Int(Pointer<Short>(primitive + q sizeof(Primitive) + OFFSET(Primitive,outline->right) + (y + 1) * sizeof(Primitive::Span)));
	x1 = Max(x1, Max(x1a, x1b));
	}

	Float4 yyyy = Float4(Float(y)) + *Pointer<Float4>(primitive + OFFSET(Primitive,yQuad), 16);

	if(interpolateZ())
	{
	for(unsigned int q = 0; q < state.multiSample; q++)
	{
	Float4 y = yyyy;

	if(state.multiSample > 1)
	{
	y -= Pointer<Float4>(constants + OFFSET(Constants,Y) + q sizeof(float4));
	}

	Dz[q] = Pointer<Float4>(primitive + OFFSET(Primitive,z.C), 16) + y *Pointer<Float4>(primitive + OFFSET(Primitive,z.B), 16);
	}
	}

	if(veryEarlyDepthTest && state.multiSample == 1 && !state.depthOverride)
	{
	if(!state.stencilActive && state.depthTestActive && (state.depthCompareMode == DEPTH_LESSEQUAL \|\| state.depthCompareMode == DEPTH_LESS)) // FIXME: Both modes ok?
	{
	Float4 xxxx = Float4(Float(x0)) + *Pointer<Float4>(primitive + OFFSET(Primitive,xQuad), 16);

	Pointer<Byte> buffer;
	Int pitch;

	if(!state.quadLayoutDepthBuffer)
	{
	buffer = zBuffer + 4 * x0;
	pitch = *Pointer<Int>(data + OFFSET(DrawData,depthPitchB));
	}
	else
	{
	buffer = zBuffer + 8 * x0;
	}

	For(Int x = x0, x < x1, x += 2)
	{
	Float4 z = interpolate(xxxx, Dz[0], z, primitive + OFFSET(Primitive,z), false, false, state.depthClamp);

	Float4 zValue;

	if(!state.quadLayoutDepthBuffer)
	{
	// FIXME: Properly optimizes?
	zValue.xy = *Pointer<Float4>(buffer);
	zValue.zw = *Pointer<Float4>(buffer + pitch - 8);
	}
	else
	{
	zValue = *Pointer<Float4>(buffer, 16);
	}

	Int4 zTest;

	if(complementaryDepthBuffer)
	{
	zTest = CmpLE(zValue, z);
	}
	else
	{
	zTest = CmpNLT(zValue, z);
	}

	Int zMask = SignMask(zTest);

	If(zMask == 0)
	{
	x0 += 2;
	}
	Else
	{
	x = x1;
	}

	xxxx += Float4(2);

	if(!state.quadLayoutDepthBuffer)
	{
	buffer += 8;
	}
	else
	{
	buffer += 16;
	}
	}
	}
	}

	If(x0 < x1)
	{
	if(interpolateW())
	{
	Dw = Pointer<Float4>(primitive + OFFSET(Primitive,w.C), 16) + yyyy *Pointer<Float4>(primitive + OFFSET(Primitive,w.B), 16);
	}

	for(int interpolant = 0; interpolant < MAX_FRAGMENT_INPUTS; interpolant++)
	{
	for(int component = 0; component < 4; component++)
	{
	if(state.interpolant[interpolant].component & (1 << component))
	{
	Dv[interpolant][component] = *Pointer<Float4>(primitive + OFFSET(Primitive,V[interpolant][component].C), 16);

	if(!(state.interpolant[interpolant].flat & (1 << component)))
	{
	Dv[interpolant][component] += yyyy * *Pointer<Float4>(primitive + OFFSET(Primitive,V[interpolant][component].B), 16);
	}
	}
	}
	}

	if(state.fog.component)
	{
	Df = *Pointer<Float4>(primitive + OFFSET(Primitive,f.C), 16);

	if(!state.fog.flat)
	{
	Df += yyyy * *Pointer<Float4>(primitive + OFFSET(Primitive,f.B), 16);
	}
	}

	Short4 xLeft[4];
	Short4 xRight[4];

	for(unsigned int q = 0; q < state.multiSample; q++)
	{
	xLeft[q] = Pointer<Short4>(primitive + q sizeof(Primitive) + OFFSET(Primitive,outline) + y * sizeof(Primitive::Span));
	xRight[q] = xLeft[q];

	xLeft[q] = Swizzle(xLeft[q], 0x0022) - Short4(1, 2, 1, 2);
	xRight[q] = Swizzle(xRight[q], 0x1133) - Short4(0, 1, 0, 1);
	}

	For(Int x = x0, x < x1, x += 2)
	{
	Short4 xxxx = Short4(x);
	Int cMask[4];

	for(unsigned int q = 0; q < state.multiSample; q++)
	{
	Short4 mask = CmpGT(xxxx, xLeft[q]) & CmpGT(xRight[q], xxxx);
	cMask[q] = SignMask(PackSigned(mask, mask)) & 0x0000000F;
	}

	quad(cBuffer, zBuffer, sBuffer, cMask, x);
	}
	}

	int clusterCount = Renderer::getClusterCount();

	for(int index = 0; index < RENDERTARGETS; index++)
	{
	if(state.colorWriteActive(index))
	{
	cBuffer[index] += *Pointer<Int>(data + OFFSET(DrawData,colorPitchB[index])) << (1 + sw::log2(clusterCount)); // FIXME: Precompute
	}
	}

	if(state.depthTestActive)
	{
	zBuffer += *Pointer<Int>(data + OFFSET(DrawData,depthPitchB)) << (1 + sw::log2(clusterCount)); // FIXME: Precompute
	}

	if(state.stencilActive)
	{
	sBuffer += *Pointer<Int>(data + OFFSET(DrawData,stencilPitchB)) << (1 + sw::log2(clusterCount)); // FIXME: Precompute
	}

	y += 2 * clusterCount;
	}
	Until(y >= yMax);
	}

	Float4 QuadRasterizer::interpolate(Float4 &x, Float4 &D, Float4 &rhw, Pointer<Byte> planeEquation, bool flat, bool perspective, bool clamp)
	{
	Float4 interpolant = D;

	if(!flat)
	{
	interpolant += x * *Pointer<Float4>(planeEquation + OFFSET(PlaneEquation, A), 16);

	if(perspective)
	{
	interpolant *= rhw;
	}
	}

	if(clamp)
	{
	interpolant = Min(Max(interpolant, Float4(0.0f)), Float4(1.0f));
	}

	return interpolant;
	}

	bool QuadRasterizer::interpolateZ() const
	{
	return state.depthTestActive \|\| state.pixelFogActive() \|\| (shader && shader->isVPosDeclared() && fullPixelPositionRegister);
	}

	bool QuadRasterizer::interpolateW() const
	{
	return state.perspective \|\| (shader && shader->isVPosDeclared() && fullPixelPositionRegister);
	}
	}