runtime/vm/constants_x64.h - sdk.git - Git at Google

 // Copyright (c) 2013, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef VM_CONSTANTS_X64_H_
 #define VM_CONSTANTS_X64_H_

 namespace dart {

 enum Register {
   kFirstFreeCpuRegister = 0,
   RAX = 0,
   RCX = 1,
   RDX = 2,
   RBX = 3,
   RSP = 4,
   RBP = 5,
   RSI = 6,
   RDI = 7,
   R8  = 8,
   R9  = 9,
   R10 = 10,
   R11 = 11,
   R12 = 12,
   R13 = 13,
   R14 = 14,
   R15 = 15,
   kLastFreeCpuRegister = 15,
   kNumberOfCpuRegisters = 16,
   kNoRegister = -1  // Signals an illegal register.
 };


 enum ByteRegister {
   AL = 0,
   CL = 1,
   DL = 2,
   BL = 3,
   AH = 4,
   CH = 5,
   DH = 6,
   BH = 7,
   kNoByteRegister = -1  // Signals an illegal register.
 };


 enum XmmRegister {
   XMM0 = 0,
   XMM1 = 1,
   XMM2 = 2,
   XMM3 = 3,
   XMM4 = 4,
   XMM5 = 5,
   XMM6 = 6,
   XMM7 = 7,
   XMM8 = 8,
   XMM9 = 9,
   XMM10 = 10,
   XMM11 = 11,
   XMM12 = 12,
   XMM13 = 13,
   XMM14 = 14,
   XMM15 = 15,
   kNumberOfXmmRegisters = 16,
   kNoXmmRegister = -1  // Signals an illegal register.
 };


 // Architecture independent aliases.
 typedef XmmRegister FpuRegister;
 const FpuRegister FpuTMP = XMM0;
 const int kNumberOfFpuRegisters = kNumberOfXmmRegisters;
 const FpuRegister kNoFpuRegister = kNoXmmRegister;


 enum RexBits {
   REX_NONE   = 0,
   REX_B      = 1 << 0,
   REX_X      = 1 << 1,
   REX_R      = 1 << 2,
   REX_W      = 1 << 3,
   REX_PREFIX = 1 << 6
 };


 // Register aliases.
 const Register TMP = R11;  // Used as scratch register by the assembler.
 const Register TMP2 = kNoRegister;  // No second assembler scratch register.
 const Register CTX = R14;  // Caches current context in generated code.
 // Caches object pool pointer in generated code.
 const Register PP = R15;
 const Register SPREG = RSP;  // Stack pointer register.
 const Register FPREG = RBP;  // Frame pointer register.
 const Register ICREG = RBX;  // IC data register.

 // Exception object is passed in this register to the catch handlers when an
 // exception is thrown.
 const Register kExceptionObjectReg = RAX;

 // Stack trace object is passed in this register to the catch handlers when
 // an exception is thrown.
 const Register kStackTraceObjectReg = RDX;


 enum ScaleFactor {
   TIMES_1 = 0,
   TIMES_2 = 1,
   TIMES_4 = 2,
   TIMES_8 = 3,
   TIMES_16 = 4,
   TIMES_HALF_WORD_SIZE = kWordSizeLog2 - 1
 };


 enum Condition {
   OVERFLOW      =  0,
   NO_OVERFLOW   =  1,
   BELOW         =  2,
   ABOVE_EQUAL   =  3,
   EQUAL         =  4,
   NOT_EQUAL     =  5,
   BELOW_EQUAL   =  6,
   ABOVE         =  7,
   SIGN          =  8,
   NOT_SIGN      =  9,
   PARITY_EVEN   = 10,
   PARITY_ODD    = 11,
   LESS          = 12,
   GREATER_EQUAL = 13,
   LESS_EQUAL    = 14,
   GREATER       = 15,

   ZERO          = EQUAL,
   NOT_ZERO      = NOT_EQUAL,
   NEGATIVE      = SIGN,
   POSITIVE      = NOT_SIGN,
   CARRY         = BELOW,
   NOT_CARRY     = ABOVE_EQUAL
 };

 #define R(reg) (1 << (reg))

 #if defined(_WIN64)
 class CallingConventions {
  public:
   static const Register kArg1Reg = RCX;
   static const Register kArg2Reg = RDX;
   static const Register kArg3Reg = R8;
   static const Register kArg4Reg = R9;
   static const intptr_t kShadowSpaceBytes = 4 * kWordSize;

   static const intptr_t kVolatileCpuRegisters =
       R(RAX) | R(RCX) | R(RDX) | R(R8) | R(R9) | R(R10) | R(R11);

   static const intptr_t kVolatileXmmRegisters =
       R(XMM0) | R(XMM1) | R(XMM2) | R(XMM3) | R(XMM4) | R(XMM5);

   static const intptr_t kCalleeSaveCpuRegisters =
       R(RBX) | R(RSI) | R(RDI) | R(R12) | R(R13) | R(R14) | R(R15);

   static const intptr_t kCalleeSaveXmmRegisters =
       R(XMM6) | R(XMM7) | R(XMM8) | R(XMM9) | R(XMM10) | R(XMM11) | R(XMM12) |
       R(XMM13) | R(XMM14) | R(XMM15);

   // Windows x64 ABI specifies that small objects are passed in registers.
   // Otherwise they are passed by reference.
   static const size_t kRegisterTransferLimit = 16;
 };
 #else
 class CallingConventions {
  public:
   static const Register kArg1Reg = RDI;
   static const Register kArg2Reg = RSI;
   static const Register kArg3Reg = RDX;
   static const Register kArg4Reg = RCX;
   static const Register kArg5Reg = R8;
   static const Register kArg6Reg = R9;
   static const intptr_t kShadowSpaceBytes = 0;

   static const intptr_t kVolatileCpuRegisters =
       R(RAX) | R(RCX) | R(RDX) | R(RSI) | R(RDI) |
       R(R8) | R(R9) | R(R10) | R(R11);

   static const intptr_t kVolatileXmmRegisters =
       R(XMM0) | R(XMM1) | R(XMM2) | R(XMM3) | R(XMM4) |
       R(XMM5) | R(XMM6) | R(XMM7) | R(XMM8) | R(XMM9) |
       R(XMM10) | R(XMM11) | R(XMM12) | R(XMM13) | R(XMM14) | R(XMM15);

   static const intptr_t kCalleeSaveCpuRegisters =
       R(RBX) | R(R12) | R(R13) | R(R14) | R(R15);

   static const intptr_t kCalleeSaveXmmRegisters = 0;
 };
 #endif

 #undef R

 class Instr {
  public:
   static const uint8_t kHltInstruction = 0xF4;
   // We prefer not to use the int3 instruction since it conflicts with gdb.
   static const uint8_t kBreakPointInstruction = kHltInstruction;
   static const int kBreakPointInstructionSize = 1;

   bool IsBreakPoint() {
     ASSERT(kBreakPointInstructionSize == 1);
     return (*reinterpret_cast<const uint8_t*>(this)) == kBreakPointInstruction;
   }

   // Instructions are read out of a code stream. The only way to get a
   // reference to an instruction is to convert a pointer. There is no way
   // to allocate or create instances of class Instr.
   // Use the At(pc) function to create references to Instr.
   static Instr* At(uword pc) { return reinterpret_cast<Instr*>(pc); }

  private:
   DISALLOW_ALLOCATION();
   // We need to prevent the creation of instances of class Instr.
   DISALLOW_IMPLICIT_CONSTRUCTORS(Instr);
 };


 // The largest multibyte nop we will emit.  This could go up to 15 if it
 // becomes important to us.
 const int MAX_NOP_SIZE = 8;

 }  // namespace dart

 #endif  // VM_CONSTANTS_X64_H_
	// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef VM_CONSTANTS_X64_H_
	#define VM_CONSTANTS_X64_H_

	namespace dart {

	enum Register {
	kFirstFreeCpuRegister = 0,
	RAX = 0,
	RCX = 1,
	RDX = 2,
	RBX = 3,
	RSP = 4,
	RBP = 5,
	RSI = 6,
	RDI = 7,
	R8 = 8,
	R9 = 9,
	R10 = 10,
	R11 = 11,
	R12 = 12,
	R13 = 13,
	R14 = 14,
	R15 = 15,
	kLastFreeCpuRegister = 15,
	kNumberOfCpuRegisters = 16,
	kNoRegister = -1 // Signals an illegal register.
	};


	enum ByteRegister {
	AL = 0,
	CL = 1,
	DL = 2,
	BL = 3,
	AH = 4,
	CH = 5,
	DH = 6,
	BH = 7,
	kNoByteRegister = -1 // Signals an illegal register.
	};


	enum XmmRegister {
	XMM0 = 0,
	XMM1 = 1,
	XMM2 = 2,
	XMM3 = 3,
	XMM4 = 4,
	XMM5 = 5,
	XMM6 = 6,
	XMM7 = 7,
	XMM8 = 8,
	XMM9 = 9,
	XMM10 = 10,
	XMM11 = 11,
	XMM12 = 12,
	XMM13 = 13,
	XMM14 = 14,
	XMM15 = 15,
	kNumberOfXmmRegisters = 16,
	kNoXmmRegister = -1 // Signals an illegal register.
	};


	// Architecture independent aliases.
	typedef XmmRegister FpuRegister;
	const FpuRegister FpuTMP = XMM0;
	const int kNumberOfFpuRegisters = kNumberOfXmmRegisters;
	const FpuRegister kNoFpuRegister = kNoXmmRegister;


	enum RexBits {
	REX_NONE = 0,
	REX_B = 1 << 0,
	REX_X = 1 << 1,
	REX_R = 1 << 2,
	REX_W = 1 << 3,
	REX_PREFIX = 1 << 6
	};


	// Register aliases.
	const Register TMP = R11; // Used as scratch register by the assembler.
	const Register TMP2 = kNoRegister; // No second assembler scratch register.
	const Register CTX = R14; // Caches current context in generated code.
	// Caches object pool pointer in generated code.
	const Register PP = R15;
	const Register SPREG = RSP; // Stack pointer register.
	const Register FPREG = RBP; // Frame pointer register.
	const Register ICREG = RBX; // IC data register.

	// Exception object is passed in this register to the catch handlers when an
	// exception is thrown.
	const Register kExceptionObjectReg = RAX;

	// Stack trace object is passed in this register to the catch handlers when
	// an exception is thrown.
	const Register kStackTraceObjectReg = RDX;


	enum ScaleFactor {
	TIMES_1 = 0,
	TIMES_2 = 1,
	TIMES_4 = 2,
	TIMES_8 = 3,
	TIMES_16 = 4,
	TIMES_HALF_WORD_SIZE = kWordSizeLog2 - 1
	};


	enum Condition {
	OVERFLOW = 0,
	NO_OVERFLOW = 1,
	BELOW = 2,
	ABOVE_EQUAL = 3,
	EQUAL = 4,
	NOT_EQUAL = 5,
	BELOW_EQUAL = 6,
	ABOVE = 7,
	SIGN = 8,
	NOT_SIGN = 9,
	PARITY_EVEN = 10,
	PARITY_ODD = 11,
	LESS = 12,
	GREATER_EQUAL = 13,
	LESS_EQUAL = 14,
	GREATER = 15,

	ZERO = EQUAL,
	NOT_ZERO = NOT_EQUAL,
	NEGATIVE = SIGN,
	POSITIVE = NOT_SIGN,
	CARRY = BELOW,
	NOT_CARRY = ABOVE_EQUAL
	};

	#define R(reg) (1 << (reg))

	#if defined(_WIN64)
	class CallingConventions {
	public:
	static const Register kArg1Reg = RCX;
	static const Register kArg2Reg = RDX;
	static const Register kArg3Reg = R8;
	static const Register kArg4Reg = R9;
	static const intptr_t kShadowSpaceBytes = 4 * kWordSize;

	static const intptr_t kVolatileCpuRegisters =
	R(RAX) \| R(RCX) \| R(RDX) \| R(R8) \| R(R9) \| R(R10) \| R(R11);

	static const intptr_t kVolatileXmmRegisters =
	R(XMM0) \| R(XMM1) \| R(XMM2) \| R(XMM3) \| R(XMM4) \| R(XMM5);

	static const intptr_t kCalleeSaveCpuRegisters =
	R(RBX) \| R(RSI) \| R(RDI) \| R(R12) \| R(R13) \| R(R14) \| R(R15);

	static const intptr_t kCalleeSaveXmmRegisters =
	R(XMM6) \| R(XMM7) \| R(XMM8) \| R(XMM9) \| R(XMM10) \| R(XMM11) \| R(XMM12) \|
	R(XMM13) \| R(XMM14) \| R(XMM15);

	// Windows x64 ABI specifies that small objects are passed in registers.
	// Otherwise they are passed by reference.
	static const size_t kRegisterTransferLimit = 16;
	};
	#else
	class CallingConventions {
	public:
	static const Register kArg1Reg = RDI;
	static const Register kArg2Reg = RSI;
	static const Register kArg3Reg = RDX;
	static const Register kArg4Reg = RCX;
	static const Register kArg5Reg = R8;
	static const Register kArg6Reg = R9;
	static const intptr_t kShadowSpaceBytes = 0;

	static const intptr_t kVolatileCpuRegisters =
	R(RAX) \| R(RCX) \| R(RDX) \| R(RSI) \| R(RDI) \|
	R(R8) \| R(R9) \| R(R10) \| R(R11);

	static const intptr_t kVolatileXmmRegisters =
	R(XMM0) \| R(XMM1) \| R(XMM2) \| R(XMM3) \| R(XMM4) \|
	R(XMM5) \| R(XMM6) \| R(XMM7) \| R(XMM8) \| R(XMM9) \|
	R(XMM10) \| R(XMM11) \| R(XMM12) \| R(XMM13) \| R(XMM14) \| R(XMM15);

	static const intptr_t kCalleeSaveCpuRegisters =
	R(RBX) \| R(R12) \| R(R13) \| R(R14) \| R(R15);

	static const intptr_t kCalleeSaveXmmRegisters = 0;
	};
	#endif

	#undef R

	class Instr {
	public:
	static const uint8_t kHltInstruction = 0xF4;
	// We prefer not to use the int3 instruction since it conflicts with gdb.
	static const uint8_t kBreakPointInstruction = kHltInstruction;
	static const int kBreakPointInstructionSize = 1;

	bool IsBreakPoint() {
	ASSERT(kBreakPointInstructionSize == 1);
	return (reinterpret_cast<const uint8_t>(this)) == kBreakPointInstruction;
	}

	// Instructions are read out of a code stream. The only way to get a
	// reference to an instruction is to convert a pointer. There is no way
	// to allocate or create instances of class Instr.
	// Use the At(pc) function to create references to Instr.
	static Instr* At(uword pc) { return reinterpret_cast<Instr*>(pc); }

	private:
	DISALLOW_ALLOCATION();
	// We need to prevent the creation of instances of class Instr.
	DISALLOW_IMPLICIT_CONSTRUCTORS(Instr);
	};


	// The largest multibyte nop we will emit. This could go up to 15 if it
	// becomes important to us.
	const int MAX_NOP_SIZE = 8;

	} // namespace dart

	#endif // VM_CONSTANTS_X64_H_