third_party/subzero/src/IceRegistersARM32.h - SwiftShader - Git at Google

 //===- subzero/src/IceRegistersARM32.h - Register information ---*- C++ -*-===//
 //
 //                        The Subzero Code Generator
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file
 /// \brief Declares the registers and their encodings for ARM32.
 ///
 //===----------------------------------------------------------------------===//

 #ifndef SUBZERO_SRC_ICEREGISTERSARM32_H
 #define SUBZERO_SRC_ICEREGISTERSARM32_H

 #include "IceDefs.h"
 #include "IceInstARM32.def"
 #include "IceOperand.h" // RC_Target
 #include "IceTypes.h"

 namespace Ice {
 namespace ARM32 {
 namespace RegARM32 {

 /// An enum of every register. The enum value may not match the encoding used
 /// to binary encode register operands in instructions.
 enum AllRegisters {
 #define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr,   \
           isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init)       \
   val,
   REGARM32_TABLE
 #undef X
       Reg_NUM,
 #define X(val, init) val init,
   REGARM32_TABLE_BOUNDS
 #undef X
 };

 /// An enum of GPR Registers. The enum value does match the encoding used to
 /// binary encode register operands in instructions.
 enum GPRRegister {
 #define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr,   \
           isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init)       \
   Encoded_##val = encode,
   REGARM32_GPR_TABLE
 #undef X
       Encoded_Not_GPR = -1
 };

 /// An enum of FP32 S-Registers. The enum value does match the encoding used
 /// to binary encode register operands in instructions.
 enum SRegister {
 #define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr,   \
           isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init)       \
   Encoded_##val = encode,
   REGARM32_FP32_TABLE
 #undef X
       Encoded_Not_SReg = -1
 };

 /// An enum of FP64 D-Registers. The enum value does match the encoding used
 /// to binary encode register operands in instructions.
 enum DRegister {
 #define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr,   \
           isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init)       \
   Encoded_##val = encode,
   REGARM32_FP64_TABLE
 #undef X
       Encoded_Not_DReg = -1
 };

 /// An enum of 128-bit Q-Registers. The enum value does match the encoding
 /// used to binary encode register operands in instructions.
 enum QRegister {
 #define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr,   \
           isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init)       \
   Encoded_##val = encode,
   REGARM32_VEC128_TABLE
 #undef X
       Encoded_Not_QReg = -1
 };

 extern struct RegTableType {
   const char *Name;
   unsigned Encoding : 10;
   unsigned CCArg : 6;
   unsigned Scratch : 1;
   unsigned Preserved : 1;
   unsigned StackPtr : 1;
   unsigned FramePtr : 1;
   unsigned IsGPR : 1;
   unsigned IsInt : 1;
   unsigned IsI64Pair : 1;
   unsigned IsFP32 : 1;
   unsigned IsFP64 : 1;
   unsigned IsVec128 : 1;
 #define NUM_ALIASES_BITS 3
   SizeT NumAliases : (NUM_ALIASES_BITS + 1);
   uint16_t Aliases[1 << NUM_ALIASES_BITS];
 #undef NUM_ALIASES_BITS
 } RegTable[Reg_NUM];

 static inline void assertValidRegNum(RegNumT RegNum) {
   (void)RegNum;
   assert(RegNum.hasValue());
 }

 static inline bool isGPRegister(RegNumT RegNum) {
   RegNum.assertIsValid();
   return RegTable[RegNum].IsGPR;
 }

 static constexpr inline SizeT getNumGPRegs() {
   return 0
 #define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr,   \
           isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init)       \
   +(isGPR)
       REGARM32_TABLE
 #undef X
       ;
 }

 static inline GPRRegister getEncodedGPR(RegNumT RegNum) {
   RegNum.assertIsValid();
   return GPRRegister(RegTable[RegNum].Encoding);
 }

 static constexpr inline SizeT getNumGPRs() {
   return 0
 #define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr,   \
           isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init)       \
   +(isGPR)
       REGARM32_TABLE
 #undef X
       ;
 }

 static inline bool isGPR(RegNumT RegNum) {
   RegNum.assertIsValid();
   return RegTable[RegNum].IsGPR;
 }

 static inline GPRRegister getI64PairFirstGPRNum(RegNumT RegNum) {
   RegNum.assertIsValid();
   return GPRRegister(RegTable[RegNum].Encoding);
 }

 static inline GPRRegister getI64PairSecondGPRNum(RegNumT RegNum) {
   RegNum.assertIsValid();
   return GPRRegister(RegTable[RegNum].Encoding + 1);
 }

 static inline bool isI64RegisterPair(RegNumT RegNum) {
   RegNum.assertIsValid();
   return RegTable[RegNum].IsI64Pair;
 }

 static inline bool isEncodedSReg(RegNumT RegNum) {
   RegNum.assertIsValid();
   return RegTable[RegNum].IsFP32;
 }

 static constexpr inline SizeT getNumSRegs() {
   return 0
 #define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr,   \
           isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init)       \
   +(isFP32)
       REGARM32_TABLE
 #undef X
       ;
 }

 static inline SRegister getEncodedSReg(RegNumT RegNum) {
   RegNum.assertIsValid();
   return SRegister(RegTable[RegNum].Encoding);
 }

 static inline bool isEncodedDReg(RegNumT RegNum) {
   RegNum.assertIsValid();
   return RegTable[RegNum].IsFP64;
 }

 static constexpr inline SizeT getNumDRegs() {
   return 0
 #define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr,   \
           isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init)       \
   +(isFP64)
       REGARM32_TABLE
 #undef X
       ;
 }

 static inline DRegister getEncodedDReg(RegNumT RegNum) {
   RegNum.assertIsValid();
   return DRegister(RegTable[RegNum].Encoding);
 }

 static inline bool isEncodedQReg(RegNumT RegNum) {
   RegNum.assertIsValid();
   return RegTable[RegNum].IsVec128;
 }

 static inline QRegister getEncodedQReg(RegNumT RegNum) {
   assert(isEncodedQReg(RegNum));
   return QRegister(RegTable[RegNum].Encoding);
 }

 static inline const char *getRegName(RegNumT RegNum) {
   RegNum.assertIsValid();
   return RegTable[RegNum].Name;
 }

 // Extend enum RegClass with ARM32-specific register classes.
 enum RegClassARM32 : uint8_t {
   RCARM32_QtoS = RC_Target, // Denotes Q registers that are aliased by S
                             // registers.
   RCARM32_NUM
 };

 } // end of namespace RegARM32
 } // end of namespace ARM32
 } // end of namespace Ice

 #endif // SUBZERO_SRC_ICEREGISTERSARM32_H
	//===- subzero/src/IceRegistersARM32.h - Register information ---- C++ --===//
	//
	// The Subzero Code Generator
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file
	/// \brief Declares the registers and their encodings for ARM32.
	///
	//===----------------------------------------------------------------------===//

	#ifndef SUBZERO_SRC_ICEREGISTERSARM32_H
	#define SUBZERO_SRC_ICEREGISTERSARM32_H

	#include "IceDefs.h"
	#include "IceInstARM32.def"
	#include "IceOperand.h" // RC_Target
	#include "IceTypes.h"

	namespace Ice {
	namespace ARM32 {
	namespace RegARM32 {

	/// An enum of every register. The enum value may not match the encoding used
	/// to binary encode register operands in instructions.
	enum AllRegisters {
	#define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr, \
	isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init) \
	val,
	REGARM32_TABLE
	#undef X
	Reg_NUM,
	#define X(val, init) val init,
	REGARM32_TABLE_BOUNDS
	#undef X
	};

	/// An enum of GPR Registers. The enum value does match the encoding used to
	/// binary encode register operands in instructions.
	enum GPRRegister {
	#define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr, \
	isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init) \
	Encoded_##val = encode,
	REGARM32_GPR_TABLE
	#undef X
	Encoded_Not_GPR = -1
	};

	/// An enum of FP32 S-Registers. The enum value does match the encoding used
	/// to binary encode register operands in instructions.
	enum SRegister {
	#define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr, \
	isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init) \
	Encoded_##val = encode,
	REGARM32_FP32_TABLE
	#undef X
	Encoded_Not_SReg = -1
	};

	/// An enum of FP64 D-Registers. The enum value does match the encoding used
	/// to binary encode register operands in instructions.
	enum DRegister {
	#define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr, \
	isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init) \
	Encoded_##val = encode,
	REGARM32_FP64_TABLE
	#undef X
	Encoded_Not_DReg = -1
	};

	/// An enum of 128-bit Q-Registers. The enum value does match the encoding
	/// used to binary encode register operands in instructions.
	enum QRegister {
	#define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr, \
	isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init) \
	Encoded_##val = encode,
	REGARM32_VEC128_TABLE
	#undef X
	Encoded_Not_QReg = -1
	};

	extern struct RegTableType {
	const char *Name;
	unsigned Encoding : 10;
	unsigned CCArg : 6;
	unsigned Scratch : 1;
	unsigned Preserved : 1;
	unsigned StackPtr : 1;
	unsigned FramePtr : 1;
	unsigned IsGPR : 1;
	unsigned IsInt : 1;
	unsigned IsI64Pair : 1;
	unsigned IsFP32 : 1;
	unsigned IsFP64 : 1;
	unsigned IsVec128 : 1;
	#define NUM_ALIASES_BITS 3
	SizeT NumAliases : (NUM_ALIASES_BITS + 1);
	uint16_t Aliases[1 << NUM_ALIASES_BITS];
	#undef NUM_ALIASES_BITS
	} RegTable[Reg_NUM];

	static inline void assertValidRegNum(RegNumT RegNum) {
	(void)RegNum;
	assert(RegNum.hasValue());
	}

	static inline bool isGPRegister(RegNumT RegNum) {
	RegNum.assertIsValid();
	return RegTable[RegNum].IsGPR;
	}

	static constexpr inline SizeT getNumGPRegs() {
	return 0
	#define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr, \
	isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init) \
	+(isGPR)
	REGARM32_TABLE
	#undef X
	;
	}

	static inline GPRRegister getEncodedGPR(RegNumT RegNum) {
	RegNum.assertIsValid();
	return GPRRegister(RegTable[RegNum].Encoding);
	}

	static constexpr inline SizeT getNumGPRs() {
	return 0
	#define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr, \
	isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init) \
	+(isGPR)
	REGARM32_TABLE
	#undef X
	;
	}

	static inline bool isGPR(RegNumT RegNum) {
	RegNum.assertIsValid();
	return RegTable[RegNum].IsGPR;
	}

	static inline GPRRegister getI64PairFirstGPRNum(RegNumT RegNum) {
	RegNum.assertIsValid();
	return GPRRegister(RegTable[RegNum].Encoding);
	}

	static inline GPRRegister getI64PairSecondGPRNum(RegNumT RegNum) {
	RegNum.assertIsValid();
	return GPRRegister(RegTable[RegNum].Encoding + 1);
	}

	static inline bool isI64RegisterPair(RegNumT RegNum) {
	RegNum.assertIsValid();
	return RegTable[RegNum].IsI64Pair;
	}

	static inline bool isEncodedSReg(RegNumT RegNum) {
	RegNum.assertIsValid();
	return RegTable[RegNum].IsFP32;
	}

	static constexpr inline SizeT getNumSRegs() {
	return 0
	#define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr, \
	isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init) \
	+(isFP32)
	REGARM32_TABLE
	#undef X
	;
	}

	static inline SRegister getEncodedSReg(RegNumT RegNum) {
	RegNum.assertIsValid();
	return SRegister(RegTable[RegNum].Encoding);
	}

	static inline bool isEncodedDReg(RegNumT RegNum) {
	RegNum.assertIsValid();
	return RegTable[RegNum].IsFP64;
	}

	static constexpr inline SizeT getNumDRegs() {
	return 0
	#define X(val, encode, name, cc_arg, scratch, preserved, stackptr, frameptr, \
	isGPR, isInt, isI64Pair, isFP32, isFP64, isVec128, alias_init) \
	+(isFP64)
	REGARM32_TABLE
	#undef X
	;
	}

	static inline DRegister getEncodedDReg(RegNumT RegNum) {
	RegNum.assertIsValid();
	return DRegister(RegTable[RegNum].Encoding);
	}

	static inline bool isEncodedQReg(RegNumT RegNum) {
	RegNum.assertIsValid();
	return RegTable[RegNum].IsVec128;
	}

	static inline QRegister getEncodedQReg(RegNumT RegNum) {
	assert(isEncodedQReg(RegNum));
	return QRegister(RegTable[RegNum].Encoding);
	}

	static inline const char *getRegName(RegNumT RegNum) {
	RegNum.assertIsValid();
	return RegTable[RegNum].Name;
	}

	// Extend enum RegClass with ARM32-specific register classes.
	enum RegClassARM32 : uint8_t {
	RCARM32_QtoS = RC_Target, // Denotes Q registers that are aliased by S
	// registers.
	RCARM32_NUM
	};

	} // end of namespace RegARM32
	} // end of namespace ARM32
	} // end of namespace Ice

	#endif // SUBZERO_SRC_ICEREGISTERSARM32_H