src/Shader/PixelProgram.hpp - 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.

 #ifndef sw_PixelProgram_hpp
 #define sw_PixelProgram_hpp

 #include "PixelRoutine.hpp"
 #include "SamplerCore.hpp"

 namespace sw
 {
 	class PixelProgram : public PixelRoutine
 	{
 	public:
 		PixelProgram(const PixelProcessor::State &state, const PixelShader *shader) :
 			PixelRoutine(state, shader), r(shader->indirectAddressableTemporaries)
 		{
 			for(int i = 0; i < 2048; ++i)
 			{
 				labelBlock[i] = 0;
 			}

 			loopDepth = -1;
 			enableStack[0] = Int4(0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF);

 			if(shader->containsBreakInstruction())
 			{
 				enableBreak = Int4(0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF);
 			}

 			if(shader->containsContinueInstruction())
 			{
 				enableContinue = Int4(0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF);
 			}
 		}

 		virtual ~PixelProgram() {}

 	protected:
 		virtual void setBuiltins(Int &x, Int &y, Float4(&z)[4], Float4 &w);
 		virtual void applyShader(Int cMask[4]);
 		virtual Bool alphaTest(Int cMask[4]);
 		virtual void rasterOperation(Float4 &fog, Pointer<Byte> cBuffer[4], Int &x, Int sMask[4], Int zMask[4], Int cMask[4]);

 	private:
 		// Temporary registers
 		RegisterArray<NUM_TEMPORARY_REGISTERS> r;

 		// Color outputs
 		Vector4f c[RENDERTARGETS];
 		RegisterArray<RENDERTARGETS, true> oC;

 		// Shader variables
 		Vector4f vPos;
 		Vector4f vFace;

 		// DX9 specific variables
 		Vector4f p0;
 		Array<Int, 4> aL;
 		Array<Int, 4> increment;
 		Array<Int, 4> iteration;

 		Int loopDepth;    // FIXME: Add support for switch
 		Int stackIndex;   // FIXME: Inc/decrement callStack
 		Array<UInt, 16> callStack;

 		// Per pixel based on conditions reached
 		Int enableIndex;
 		Array<Int4, 1 + 24> enableStack;
 		Int4 enableBreak;
 		Int4 enableContinue;
 		Int4 enableLeave;

 		Vector4f sampleTexture(const Src &sampler, Vector4f &uvwq, Float4 &bias, Vector4f &dsx, Vector4f &dsy, Vector4f &offset, SamplerFunction function);
 		Vector4f sampleTexture(int samplerIndex, Vector4f &uvwq, Float4 &bias, Vector4f &dsx, Vector4f &dsy, Vector4f &offset, SamplerFunction function);

 		// Raster operations
 		void clampColor(Vector4f oC[RENDERTARGETS]);

 		Int4 enableMask(const Shader::Instruction *instruction);

 		Vector4f fetchRegister(const Src &src, unsigned int offset = 0);
 		Vector4f readConstant(const Src &src, unsigned int offset = 0);
 		RValue<Pointer<Byte>> uniformAddress(int bufferIndex, unsigned int index);
 		RValue<Pointer<Byte>> uniformAddress(int bufferIndex, unsigned int index, Int& offset);
 		Int relativeAddress(const Shader::Relative &rel, int bufferIndex = -1);
 		Int4 dynamicAddress(const Shader::Relative &rel);

 		Float4 linearToSRGB(const Float4 &x);

 		// Instructions
 		typedef Shader::Control Control;

 		void M3X2(Vector4f &dst, Vector4f &src0, const Src &src1);
 		void M3X3(Vector4f &dst, Vector4f &src0, const Src &src1);
 		void M3X4(Vector4f &dst, Vector4f &src0, const Src &src1);
 		void M4X3(Vector4f &dst, Vector4f &src0, const Src &src1);
 		void M4X4(Vector4f &dst, Vector4f &src0, const Src &src1);
 		void TEX(Vector4f &dst, Vector4f &src0, const Src &src1, bool project, bool bias);
 		void TEXLOD(Vector4f &dst, Vector4f &src0, const Src &src1, Float4 &lod);
 		void TEXBIAS(Vector4f &dst, Vector4f &src0, const Src &src1, Float4 &bias);
 		void TEXSIZE(Vector4f &dst, Float4 &lod, const Src &src1);
 		void TEXKILL(Int cMask[4], Vector4f &src, unsigned char mask);
 		void TEXOFFSET(Vector4f &dst, Vector4f &src0, const Src &src1, Vector4f &offset);
 		void TEXOFFSETBIAS(Vector4f &dst, Vector4f &src0, const Src &src1, Vector4f &offset, Float4 &bias);
 		void TEXLODOFFSET(Vector4f &dst, Vector4f &src0, const Src &src1, Vector4f &offset, Float4 &lod);
 		void TEXELFETCH(Vector4f &dst, Vector4f &src, const Src &, Float4 &lod);
 		void TEXELFETCHOFFSET(Vector4f &dst, Vector4f &src, const Src &, Vector4f &offset, Float4 &lod);
 		void TEXGRAD(Vector4f &dst, Vector4f &src0, const Src &src1, Vector4f &dsx, Vector4f &dsy);
 		void TEXGRADOFFSET(Vector4f &dst, Vector4f &src, const Src &, Vector4f &dsx, Vector4f &dsy, Vector4f &offset);
 		void DISCARD(Int cMask[4], const Shader::Instruction *instruction);
 		void DFDX(Vector4f &dst, Vector4f &src);
 		void DFDY(Vector4f &dst, Vector4f &src);
 		void FWIDTH(Vector4f &dst, Vector4f &src);
 		void BREAK();
 		void BREAKC(Vector4f &src0, Vector4f &src1, Control);
 		void BREAKP(const Src &predicateRegister);
 		void BREAK(Int4 &condition);
 		void CONTINUE();
 		void TEST();
 		void SCALAR();
 		void CALL(int labelIndex, int callSiteIndex);
 		void CALLNZ(int labelIndex, int callSiteIndex, const Src &src);
 		void CALLNZb(int labelIndex, int callSiteIndex, const Src &boolRegister);
 		void CALLNZp(int labelIndex, int callSiteIndex, const Src &predicateRegister);
 		void ELSE();
 		void ENDIF();
 		void ENDLOOP();
 		void ENDREP();
 		void ENDWHILE();
 		void ENDSWITCH();
 		void IF(const Src &src);
 		void IFb(const Src &boolRegister);
 		void IFp(const Src &predicateRegister);
 		void IFC(Vector4f &src0, Vector4f &src1, Control);
 		void IF(Int4 &condition);
 		void LABEL(int labelIndex);
 		void LOOP(const Src &integerRegister);
 		void REP(const Src &integerRegister);
 		void WHILE(const Src &temporaryRegister);
 		void SWITCH();
 		void RET();
 		void LEAVE();

 		int ifDepth = 0;
 		int loopRepDepth = 0;
 		int currentLabel = -1;
 		bool scalar = false;

 		BasicBlock *ifFalseBlock[24 + 24];
 		BasicBlock *loopRepTestBlock[4];
 		BasicBlock *loopRepEndBlock[4];
 		BasicBlock *labelBlock[2048];
 		std::vector<BasicBlock*> callRetBlock[2048];
 		BasicBlock *returnBlock;
 		bool isConditionalIf[24 + 24];
 		std::vector<Int4> restoreContinue;
 	};
 }

 #endif
	// 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.

	#ifndef sw_PixelProgram_hpp
	#define sw_PixelProgram_hpp

	#include "PixelRoutine.hpp"
	#include "SamplerCore.hpp"

	namespace sw
	{
	class PixelProgram : public PixelRoutine
	{
	public:
	PixelProgram(const PixelProcessor::State &state, const PixelShader *shader) :
	PixelRoutine(state, shader), r(shader->indirectAddressableTemporaries)
	{
	for(int i = 0; i < 2048; ++i)
	{
	labelBlock[i] = 0;
	}

	loopDepth = -1;
	enableStack[0] = Int4(0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF);

	if(shader->containsBreakInstruction())
	{
	enableBreak = Int4(0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF);
	}

	if(shader->containsContinueInstruction())
	{
	enableContinue = Int4(0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF);
	}
	}

	virtual ~PixelProgram() {}

	protected:
	virtual void setBuiltins(Int &x, Int &y, Float4(&z)[4], Float4 &w);
	virtual void applyShader(Int cMask[4]);
	virtual Bool alphaTest(Int cMask[4]);
	virtual void rasterOperation(Float4 &fog, Pointer<Byte> cBuffer[4], Int &x, Int sMask[4], Int zMask[4], Int cMask[4]);

	private:
	// Temporary registers
	RegisterArray<NUM_TEMPORARY_REGISTERS> r;

	// Color outputs
	Vector4f c[RENDERTARGETS];
	RegisterArray<RENDERTARGETS, true> oC;

	// Shader variables
	Vector4f vPos;
	Vector4f vFace;

	// DX9 specific variables
	Vector4f p0;
	Array<Int, 4> aL;
	Array<Int, 4> increment;
	Array<Int, 4> iteration;

	Int loopDepth; // FIXME: Add support for switch
	Int stackIndex; // FIXME: Inc/decrement callStack
	Array<UInt, 16> callStack;

	// Per pixel based on conditions reached
	Int enableIndex;
	Array<Int4, 1 + 24> enableStack;
	Int4 enableBreak;
	Int4 enableContinue;
	Int4 enableLeave;

	Vector4f sampleTexture(const Src &sampler, Vector4f &uvwq, Float4 &bias, Vector4f &dsx, Vector4f &dsy, Vector4f &offset, SamplerFunction function);
	Vector4f sampleTexture(int samplerIndex, Vector4f &uvwq, Float4 &bias, Vector4f &dsx, Vector4f &dsy, Vector4f &offset, SamplerFunction function);

	// Raster operations
	void clampColor(Vector4f oC[RENDERTARGETS]);

	Int4 enableMask(const Shader::Instruction *instruction);

	Vector4f fetchRegister(const Src &src, unsigned int offset = 0);
	Vector4f readConstant(const Src &src, unsigned int offset = 0);
	RValue<Pointer<Byte>> uniformAddress(int bufferIndex, unsigned int index);
	RValue<Pointer<Byte>> uniformAddress(int bufferIndex, unsigned int index, Int& offset);
	Int relativeAddress(const Shader::Relative &rel, int bufferIndex = -1);
	Int4 dynamicAddress(const Shader::Relative &rel);

	Float4 linearToSRGB(const Float4 &x);

	// Instructions
	typedef Shader::Control Control;

	void M3X2(Vector4f &dst, Vector4f &src0, const Src &src1);
	void M3X3(Vector4f &dst, Vector4f &src0, const Src &src1);
	void M3X4(Vector4f &dst, Vector4f &src0, const Src &src1);
	void M4X3(Vector4f &dst, Vector4f &src0, const Src &src1);
	void M4X4(Vector4f &dst, Vector4f &src0, const Src &src1);
	void TEX(Vector4f &dst, Vector4f &src0, const Src &src1, bool project, bool bias);
	void TEXLOD(Vector4f &dst, Vector4f &src0, const Src &src1, Float4 &lod);
	void TEXBIAS(Vector4f &dst, Vector4f &src0, const Src &src1, Float4 &bias);
	void TEXSIZE(Vector4f &dst, Float4 &lod, const Src &src1);
	void TEXKILL(Int cMask[4], Vector4f &src, unsigned char mask);
	void TEXOFFSET(Vector4f &dst, Vector4f &src0, const Src &src1, Vector4f &offset);
	void TEXOFFSETBIAS(Vector4f &dst, Vector4f &src0, const Src &src1, Vector4f &offset, Float4 &bias);
	void TEXLODOFFSET(Vector4f &dst, Vector4f &src0, const Src &src1, Vector4f &offset, Float4 &lod);
	void TEXELFETCH(Vector4f &dst, Vector4f &src, const Src &, Float4 &lod);
	void TEXELFETCHOFFSET(Vector4f &dst, Vector4f &src, const Src &, Vector4f &offset, Float4 &lod);
	void TEXGRAD(Vector4f &dst, Vector4f &src0, const Src &src1, Vector4f &dsx, Vector4f &dsy);
	void TEXGRADOFFSET(Vector4f &dst, Vector4f &src, const Src &, Vector4f &dsx, Vector4f &dsy, Vector4f &offset);
	void DISCARD(Int cMask[4], const Shader::Instruction *instruction);
	void DFDX(Vector4f &dst, Vector4f &src);
	void DFDY(Vector4f &dst, Vector4f &src);
	void FWIDTH(Vector4f &dst, Vector4f &src);
	void BREAK();
	void BREAKC(Vector4f &src0, Vector4f &src1, Control);
	void BREAKP(const Src &predicateRegister);
	void BREAK(Int4 &condition);
	void CONTINUE();
	void TEST();
	void SCALAR();
	void CALL(int labelIndex, int callSiteIndex);
	void CALLNZ(int labelIndex, int callSiteIndex, const Src &src);
	void CALLNZb(int labelIndex, int callSiteIndex, const Src &boolRegister);
	void CALLNZp(int labelIndex, int callSiteIndex, const Src &predicateRegister);
	void ELSE();
	void ENDIF();
	void ENDLOOP();
	void ENDREP();
	void ENDWHILE();
	void ENDSWITCH();
	void IF(const Src &src);
	void IFb(const Src &boolRegister);
	void IFp(const Src &predicateRegister);
	void IFC(Vector4f &src0, Vector4f &src1, Control);
	void IF(Int4 &condition);
	void LABEL(int labelIndex);
	void LOOP(const Src &integerRegister);
	void REP(const Src &integerRegister);
	void WHILE(const Src &temporaryRegister);
	void SWITCH();
	void RET();
	void LEAVE();

	int ifDepth = 0;
	int loopRepDepth = 0;
	int currentLabel = -1;
	bool scalar = false;

	BasicBlock *ifFalseBlock[24 + 24];
	BasicBlock *loopRepTestBlock[4];
	BasicBlock *loopRepEndBlock[4];
	BasicBlock *labelBlock[2048];
	std::vector<BasicBlock*> callRetBlock[2048];
	BasicBlock *returnBlock;
	bool isConditionalIf[24 + 24];
	std::vector<Int4> restoreContinue;
	};
	}

	#endif