src/Reactor/Nucleus.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 rr_Nucleus_hpp
 #define rr_Nucleus_hpp

 #include <cassert>
 #include <cstdarg>
 #include <cstdint>
 #include <vector>
 #include <atomic>

 namespace rr
 {
 	class Type;
 	class Value;
 	class SwitchCases;
 	class BasicBlock;
 	class Routine;

 	enum Optimization
 	{
 		Disabled             = 0,
 		InstructionCombining = 1,
 		CFGSimplification    = 2,
 		LICM                 = 3,
 		AggressiveDCE        = 4,
 		GVN                  = 5,
 		Reassociate          = 6,
 		DeadStoreElimination = 7,
 		SCCP                 = 8,
 		ScalarReplAggregates = 9,

 		OptimizationCount
 	};

 	extern Optimization optimization[10];

 	class Nucleus
 	{
 	public:
 		Nucleus();

 		virtual ~Nucleus();

 		Routine *acquireRoutine(const char *name, bool runOptimizations = true);

 		static Value *allocateStackVariable(Type *type, int arraySize = 0);
 		static BasicBlock *createBasicBlock();
 		static BasicBlock *getInsertBlock();
 		static void setInsertBlock(BasicBlock *basicBlock);

 		static void createFunction(Type *ReturnType, std::vector<Type*> &Params);
 		static Value *getArgument(unsigned int index);

 		// Terminators
 		static void createRetVoid();
 		static void createRet(Value *V);
 		static void createBr(BasicBlock *dest);
 		static void createCondBr(Value *cond, BasicBlock *ifTrue, BasicBlock *ifFalse);

 		// Binary operators
 		static Value *createAdd(Value *lhs, Value *rhs);
 		static Value *createSub(Value *lhs, Value *rhs);
 		static Value *createMul(Value *lhs, Value *rhs);
 		static Value *createUDiv(Value *lhs, Value *rhs);
 		static Value *createSDiv(Value *lhs, Value *rhs);
 		static Value *createFAdd(Value *lhs, Value *rhs);
 		static Value *createFSub(Value *lhs, Value *rhs);
 		static Value *createFMul(Value *lhs, Value *rhs);
 		static Value *createFDiv(Value *lhs, Value *rhs);
 		static Value *createURem(Value *lhs, Value *rhs);
 		static Value *createSRem(Value *lhs, Value *rhs);
 		static Value *createFRem(Value *lhs, Value *rhs);
 		static Value *createShl(Value *lhs, Value *rhs);
 		static Value *createLShr(Value *lhs, Value *rhs);
 		static Value *createAShr(Value *lhs, Value *rhs);
 		static Value *createAnd(Value *lhs, Value *rhs);
 		static Value *createOr(Value *lhs, Value *rhs);
 		static Value *createXor(Value *lhs, Value *rhs);

 		// Unary operators
 		static Value *createNeg(Value *V);
 		static Value *createFNeg(Value *V);
 		static Value *createNot(Value *V);

 		// Memory instructions
 		static Value *createLoad(Value *ptr, Type *type, bool isVolatile = false, unsigned int alignment = 0, bool atomic = false , std::memory_order memoryOrder = std::memory_order_relaxed);
 		static Value *createStore(Value *value, Value *ptr, Type *type, bool isVolatile = false, unsigned int aligment = 0, bool atomic = false, std::memory_order memoryOrder = std::memory_order_relaxed);
 		static Value *createGEP(Value *ptr, Type *type, Value *index, bool unsignedIndex);

 		// Atomic instructions
 		static Value *createAtomicAdd(Value *ptr, Value *value);

 		// Cast/Conversion Operators
 		static Value *createTrunc(Value *V, Type *destType);
 		static Value *createZExt(Value *V, Type *destType);
 		static Value *createSExt(Value *V, Type *destType);
 		static Value *createFPToSI(Value *V, Type *destType);
 		static Value *createSIToFP(Value *V, Type *destType);
 		static Value *createFPTrunc(Value *V, Type *destType);
 		static Value *createFPExt(Value *V, Type *destType);
 		static Value *createBitCast(Value *V, Type *destType);

 		// Compare instructions
 		static Value *createICmpEQ(Value *lhs, Value *rhs);
 		static Value *createICmpNE(Value *lhs, Value *rhs);
 		static Value *createICmpUGT(Value *lhs, Value *rhs);
 		static Value *createICmpUGE(Value *lhs, Value *rhs);
 		static Value *createICmpULT(Value *lhs, Value *rhs);
 		static Value *createICmpULE(Value *lhs, Value *rhs);
 		static Value *createICmpSGT(Value *lhs, Value *rhs);
 		static Value *createICmpSGE(Value *lhs, Value *rhs);
 		static Value *createICmpSLT(Value *lhs, Value *rhs);
 		static Value *createICmpSLE(Value *lhs, Value *rhs);
 		static Value *createFCmpOEQ(Value *lhs, Value *rhs);
 		static Value *createFCmpOGT(Value *lhs, Value *rhs);
 		static Value *createFCmpOGE(Value *lhs, Value *rhs);
 		static Value *createFCmpOLT(Value *lhs, Value *rhs);
 		static Value *createFCmpOLE(Value *lhs, Value *rhs);
 		static Value *createFCmpONE(Value *lhs, Value *rhs);
 		static Value *createFCmpORD(Value *lhs, Value *rhs);
 		static Value *createFCmpUNO(Value *lhs, Value *rhs);
 		static Value *createFCmpUEQ(Value *lhs, Value *rhs);
 		static Value *createFCmpUGT(Value *lhs, Value *rhs);
 		static Value *createFCmpUGE(Value *lhs, Value *rhs);
 		static Value *createFCmpULT(Value *lhs, Value *rhs);
 		static Value *createFCmpULE(Value *lhs, Value *rhs);
 		static Value *createFCmpUNE(Value *lhs, Value *rhs);

 		// Vector instructions
 		static Value *createExtractElement(Value *vector, Type *type, int index);
 		static Value *createInsertElement(Value *vector, Value *element, int index);
 		static Value *createShuffleVector(Value *V1, Value *V2, const int *select);

 		// Other instructions
 		static Value *createSelect(Value *C, Value *ifTrue, Value *ifFalse);
 		static SwitchCases *createSwitch(Value *control, BasicBlock *defaultBranch, unsigned numCases);
 		static void addSwitchCase(SwitchCases *switchCases, int label, BasicBlock *branch);
 		static void createUnreachable();

 		// Constant values
 		static Value *createNullValue(Type *type);
 		static Value *createConstantLong(int64_t i);
 		static Value *createConstantInt(int i);
 		static Value *createConstantInt(unsigned int i);
 		static Value *createConstantBool(bool b);
 		static Value *createConstantByte(signed char i);
 		static Value *createConstantByte(unsigned char i);
 		static Value *createConstantShort(short i);
 		static Value *createConstantShort(unsigned short i);
 		static Value *createConstantFloat(float x);
 		static Value *createNullPointer(Type *type);
 		static Value *createConstantVector(const int64_t *constants, Type *type);
 		static Value *createConstantVector(const double *constants, Type *type);

 		static Type *getPointerType(Type *elementType);

 	private:
 		void optimize();
 	};
 }

 #endif   // rr_Nucleus_hpp
	// 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 rr_Nucleus_hpp
	#define rr_Nucleus_hpp

	#include <cassert>
	#include <cstdarg>
	#include <cstdint>
	#include <vector>
	#include <atomic>

	namespace rr
	{
	class Type;
	class Value;
	class SwitchCases;
	class BasicBlock;
	class Routine;

	enum Optimization
	{
	Disabled = 0,
	InstructionCombining = 1,
	CFGSimplification = 2,
	LICM = 3,
	AggressiveDCE = 4,
	GVN = 5,
	Reassociate = 6,
	DeadStoreElimination = 7,
	SCCP = 8,
	ScalarReplAggregates = 9,

	OptimizationCount
	};

	extern Optimization optimization[10];

	class Nucleus
	{
	public:
	Nucleus();

	virtual ~Nucleus();

	Routine acquireRoutine(const char name, bool runOptimizations = true);

	static Value allocateStackVariable(Type type, int arraySize = 0);
	static BasicBlock *createBasicBlock();
	static BasicBlock *getInsertBlock();
	static void setInsertBlock(BasicBlock *basicBlock);

	static void createFunction(Type ReturnType, std::vector<Type> &Params);
	static Value *getArgument(unsigned int index);

	// Terminators
	static void createRetVoid();
	static void createRet(Value *V);
	static void createBr(BasicBlock *dest);
	static void createCondBr(Value cond, BasicBlock ifTrue, BasicBlock *ifFalse);

	// Binary operators
	static Value createAdd(Value lhs, Value *rhs);
	static Value createSub(Value lhs, Value *rhs);
	static Value createMul(Value lhs, Value *rhs);
	static Value createUDiv(Value lhs, Value *rhs);
	static Value createSDiv(Value lhs, Value *rhs);
	static Value createFAdd(Value lhs, Value *rhs);
	static Value createFSub(Value lhs, Value *rhs);
	static Value createFMul(Value lhs, Value *rhs);
	static Value createFDiv(Value lhs, Value *rhs);
	static Value createURem(Value lhs, Value *rhs);
	static Value createSRem(Value lhs, Value *rhs);
	static Value createFRem(Value lhs, Value *rhs);
	static Value createShl(Value lhs, Value *rhs);
	static Value createLShr(Value lhs, Value *rhs);
	static Value createAShr(Value lhs, Value *rhs);
	static Value createAnd(Value lhs, Value *rhs);
	static Value createOr(Value lhs, Value *rhs);
	static Value createXor(Value lhs, Value *rhs);

	// Unary operators
	static Value createNeg(Value V);
	static Value createFNeg(Value V);
	static Value createNot(Value V);

	// Memory instructions
	static Value createLoad(Value ptr, Type *type, bool isVolatile = false, unsigned int alignment = 0, bool atomic = false , std::memory_order memoryOrder = std::memory_order_relaxed);
	static Value createStore(Value value, Value ptr, Type type, bool isVolatile = false, unsigned int aligment = 0, bool atomic = false, std::memory_order memoryOrder = std::memory_order_relaxed);
	static Value createGEP(Value ptr, Type type, Value index, bool unsignedIndex);

	// Atomic instructions
	static Value createAtomicAdd(Value ptr, Value *value);

	// Cast/Conversion Operators
	static Value createTrunc(Value V, Type *destType);
	static Value createZExt(Value V, Type *destType);
	static Value createSExt(Value V, Type *destType);
	static Value createFPToSI(Value V, Type *destType);
	static Value createSIToFP(Value V, Type *destType);
	static Value createFPTrunc(Value V, Type *destType);
	static Value createFPExt(Value V, Type *destType);
	static Value createBitCast(Value V, Type *destType);

	// Compare instructions
	static Value createICmpEQ(Value lhs, Value *rhs);
	static Value createICmpNE(Value lhs, Value *rhs);
	static Value createICmpUGT(Value lhs, Value *rhs);
	static Value createICmpUGE(Value lhs, Value *rhs);
	static Value createICmpULT(Value lhs, Value *rhs);
	static Value createICmpULE(Value lhs, Value *rhs);
	static Value createICmpSGT(Value lhs, Value *rhs);
	static Value createICmpSGE(Value lhs, Value *rhs);
	static Value createICmpSLT(Value lhs, Value *rhs);
	static Value createICmpSLE(Value lhs, Value *rhs);
	static Value createFCmpOEQ(Value lhs, Value *rhs);
	static Value createFCmpOGT(Value lhs, Value *rhs);
	static Value createFCmpOGE(Value lhs, Value *rhs);
	static Value createFCmpOLT(Value lhs, Value *rhs);
	static Value createFCmpOLE(Value lhs, Value *rhs);
	static Value createFCmpONE(Value lhs, Value *rhs);
	static Value createFCmpORD(Value lhs, Value *rhs);
	static Value createFCmpUNO(Value lhs, Value *rhs);
	static Value createFCmpUEQ(Value lhs, Value *rhs);
	static Value createFCmpUGT(Value lhs, Value *rhs);
	static Value createFCmpUGE(Value lhs, Value *rhs);
	static Value createFCmpULT(Value lhs, Value *rhs);
	static Value createFCmpULE(Value lhs, Value *rhs);
	static Value createFCmpUNE(Value lhs, Value *rhs);

	// Vector instructions
	static Value createExtractElement(Value vector, Type *type, int index);
	static Value createInsertElement(Value vector, Value *element, int index);
	static Value createShuffleVector(Value V1, Value V2, const int select);

	// Other instructions
	static Value createSelect(Value C, Value ifTrue, Value ifFalse);
	static SwitchCases createSwitch(Value control, BasicBlock *defaultBranch, unsigned numCases);
	static void addSwitchCase(SwitchCases switchCases, int label, BasicBlock branch);
	static void createUnreachable();

	// Constant values
	static Value createNullValue(Type type);
	static Value *createConstantLong(int64_t i);
	static Value *createConstantInt(int i);
	static Value *createConstantInt(unsigned int i);
	static Value *createConstantBool(bool b);
	static Value *createConstantByte(signed char i);
	static Value *createConstantByte(unsigned char i);
	static Value *createConstantShort(short i);
	static Value *createConstantShort(unsigned short i);
	static Value *createConstantFloat(float x);
	static Value createNullPointer(Type type);
	static Value createConstantVector(const int64_t constants, Type *type);
	static Value createConstantVector(const double constants, Type *type);

	static Type getPointerType(Type elementType);

	private:
	void optimize();
	};
	}

	#endif // rr_Nucleus_hpp