src/IceRegistersX8664.h - Issue 1211103004: Adds the X8664 register definition.

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Issue 1211103004: Adds the X8664 register definition. (Closed) Base URL: https://chromium.googlesource.com/native_client/pnacl-subzero.git@master

Patch Set: Created 5 years, 6 months ago

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1 //===- subzero/src/IceRegistersX8632.h - Register information ---- C++ --===//	1 //===- subzero/src/IceRegistersX8664.h - Register information ---- C++ --===//

2 //	2 //

3 // The Subzero Code Generator	3 // The Subzero Code Generator

4 //	4 //

5 // This file is distributed under the University of Illinois Open Source	5 // This file is distributed under the University of Illinois Open Source

6 // License. See LICENSE.TXT for details.	6 // License. See LICENSE.TXT for details.

7 //	7 //

8 //===----------------------------------------------------------------------===//	8 //===----------------------------------------------------------------------===//

9 //	9 //

10 // This file declares the registers and their encodings for x86-32.	10 // This file declares the registers and their encodings for x86-64.

11 //	11 //

12 //===----------------------------------------------------------------------===//	12 //===----------------------------------------------------------------------===//

13	13

14 #ifndef SUBZERO_SRC_ICEREGISTERSX8632_H	14 #ifndef SUBZERO_SRC_ICEREGISTERSX8664_H

15 #define SUBZERO_SRC_ICEREGISTERSX8632_H	15 #define SUBZERO_SRC_ICEREGISTERSX8664_H

16	16

17 #include "IceDefs.h"	17 #include "IceDefs.h"

18 #include "IceInstX8632.def"	18 #include "IceInstX8664.def"

19 #include "IceTypes.h"	19 #include "IceTypes.h"

20	20

21 namespace Ice {	21 namespace Ice {

22	22

23 namespace RegX8632 {	23 namespace RegX8664 {

24	24

25 // An enum of every register. The enum value may not match the encoding	25 // An enum of every register. The enum value may not match the encoding

26 // used to binary encode register operands in instructions.	26 // used to binary encode register operands in instructions.

27 enum AllRegisters {	27 enum AllRegisters {

28 #define X(val, encode, name, name16, name8, scratch, preserved, stackptr, \	28 #define X(val, encode, name, name32, name16, name8, scratch, preserved, \

29 frameptr, isI8, isInt, isFP) \	29 stackptr, frameptr, isI8, isInt, isFP) \

30 val,	30 val,

31 REGX8632_TABLE	31 REGX8664_TABLE

32 #undef X	32 #undef X

33 Reg_NUM,	33 Reg_NUM,

34 #define X(val, init) val init,	34 #define X(val, init) val init,

35 REGX8632_TABLE_BOUNDS	35 REGX8664_TABLE_BOUNDS

36 #undef X	36 #undef X

37 };	37 };

38	38

39 // An enum of GPR Registers. The enum value does match the encoding used	39 // An enum of GPR Registers. The enum value does match the encoding used

40 // to binary encode register operands in instructions.	40 // to binary encode register operands in instructions.

41 enum GPRRegister {	41 enum GPRRegister {

42 #define X(val, encode, name, name16, name8, scratch, preserved, stackptr, \	42 #define X(val, encode, name, name32, name16, name8, scratch, preserved, \

43 frameptr, isI8, isInt, isFP) \	43 stackptr, frameptr, isI8, isInt, isFP) \

44 Encoded_##val encode,	44 Encoded_##val encode,

45 REGX8632_GPR_TABLE	45 REGX8664_GPR_TABLE

46 #undef X	46 #undef X

47 Encoded_Not_GPR = -1	47 Encoded_Not_GPR = -1

48 };	48 };

49	49

50 // An enum of XMM Registers. The enum value does match the encoding used	50 // An enum of XMM Registers. The enum value does match the encoding used

51 // to binary encode register operands in instructions.	51 // to binary encode register operands in instructions.

52 enum XmmRegister {	52 enum XmmRegister {

53 #define X(val, encode, name, name16, name8, scratch, preserved, stackptr, \	53 #define X(val, encode, name, name32, name16, name8, scratch, preserved, \

54 frameptr, isI8, isInt, isFP) \	54 stackptr, frameptr, isI8, isInt, isFP) \

55 Encoded_##val encode,	55 Encoded_##val encode,

56 REGX8632_XMM_TABLE	56 REGX8664_XMM_TABLE

57 #undef X	57 #undef X

58 Encoded_Not_Xmm = -1	58 Encoded_Not_Xmm = -1

59 };	59 };

60	60

61 // An enum of Byte Registers. The enum value does match the encoding used	61 // An enum of Byte Registers. The enum value does match the encoding used

62 // to binary encode register operands in instructions.	62 // to binary encode register operands in instructions.

63 enum ByteRegister {	63 enum ByteRegister {

64 #define X(val, encode) Encoded_##val encode,	64 #define X(val, encode) Encoded_##val encode,

65 REGX8632_BYTEREG_TABLE	65 REGX8664_BYTEREG_TABLE

66 #undef X	66 #undef X

67 Encoded_Not_ByteReg = -1	67 Encoded_Not_ByteReg = -1

68 };	68 };

69	69

70 // An enum of X87 Stack Registers. The enum value does match the encoding used

71 // to binary encode register operands in instructions.

72 enum X87STRegister {

73 #define X(val, encode, name) Encoded_##val encode,

74 X87ST_REGX8632_TABLE

75 #undef X

76 Encoded_Not_X87STReg = -1

77 };

78

79 static inline GPRRegister getEncodedGPR(int32_t RegNum) {	70 static inline GPRRegister getEncodedGPR(int32_t RegNum) {

80 assert(Reg_GPR_First <= RegNum && RegNum <= Reg_GPR_Last);	71 assert(Reg_GPR_First <= RegNum && RegNum <= Reg_GPR_Last);

81 return GPRRegister(RegNum - Reg_GPR_First);	72 return GPRRegister(RegNum - Reg_GPR_First);

82 }	73 }

83	74

84 static inline XmmRegister getEncodedXmm(int32_t RegNum) {	75 static inline XmmRegister getEncodedXmm(int32_t RegNum) {

85 assert(Reg_XMM_First <= RegNum && RegNum <= Reg_XMM_Last);	76 assert(Reg_XMM_First <= RegNum && RegNum <= Reg_XMM_Last);

86 return XmmRegister(RegNum - Reg_XMM_First);	77 return XmmRegister(RegNum - Reg_XMM_First);

87 }	78 }

88	79

89 static inline ByteRegister getEncodedByteReg(int32_t RegNum) {	80 static inline ByteRegister getEncodedByteReg(int32_t RegNum) {

90 assert(RegNum == Reg_ah \|\| (Reg_GPR_First <= RegNum && RegNum <= Reg_ebx));	81 // In x86-64, AH is not encodable when the REX prefix is used; the same

	82 // encoding is used for spl. Therefore, ah needs special handling.

91 if (RegNum == Reg_ah)	83 if (RegNum == Reg_ah)

92 return Encoded_Reg_ah;	84 return Encoded_Reg_spl;

93 return ByteRegister(RegNum - Reg_GPR_First);	85 return ByteRegister(RegNum - Reg_GPR_First);

94 }	86 }

95	87

96 static inline GPRRegister getEncodedByteRegOrGPR(Type Ty, int32_t RegNum) {	88 static inline GPRRegister getEncodedByteRegOrGPR(Type Ty, int32_t RegNum) {

97 if (isByteSizedType(Ty))	89 if (isByteSizedType(Ty))

98 return GPRRegister(getEncodedByteReg(RegNum));	90 return GPRRegister(getEncodedByteReg(RegNum));

99 else	91 else

100 return getEncodedGPR(RegNum);	92 return getEncodedGPR(RegNum);

101 }	93 }

102	94

103 static inline X87STRegister getEncodedSTReg(int32_t RegNum) {	95 } // end of namespace RegX8664

104 assert(Encoded_X87ST_First <= RegNum && RegNum <= Encoded_X87ST_Last);

105 return X87STRegister(RegNum);

106 }

107

108 } // end of namespace RegX8632

109	96

110 } // end of namespace Ice	97 } // end of namespace Ice

111	98

112 #endif // SUBZERO_SRC_ICEREGISTERSX8632_H	99 #endif // SUBZERO_SRC_ICEREGISTERSX8664_H

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