src/compiler/x87/instruction-codes-x87.h - platform/external/v8 - Git at Google

 // Copyright 2014 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef V8_COMPILER_X87_INSTRUCTION_CODES_X87_H_
 #define V8_COMPILER_X87_INSTRUCTION_CODES_X87_H_

 #include "src/compiler/instruction.h"
 #include "src/compiler/instruction-codes.h"
 namespace v8 {
 namespace internal {
 namespace compiler {

 // X87-specific opcodes that specify which assembly sequence to emit.
 // Most opcodes specify a single instruction.
 #define TARGET_ARCH_OPCODE_LIST(V) \
   V(X87Add)                        \
   V(X87And)                        \
   V(X87Cmp)                        \
   V(X87Test)                       \
   V(X87Or)                         \
   V(X87Xor)                        \
   V(X87Sub)                        \
   V(X87Imul)                       \
   V(X87ImulHigh)                   \
   V(X87UmulHigh)                   \
   V(X87Idiv)                       \
   V(X87Udiv)                       \
   V(X87Not)                        \
   V(X87Neg)                        \
   V(X87Shl)                        \
   V(X87Shr)                        \
   V(X87Sar)                        \
   V(X87Ror)                        \
   V(X87Lzcnt)                      \
   V(X87Popcnt)                     \
   V(X87Float32Cmp)                 \
   V(X87Float32Add)                 \
   V(X87Float32Sub)                 \
   V(X87Float32Mul)                 \
   V(X87Float32Div)                 \
   V(X87Float32Max)                 \
   V(X87Float32Min)                 \
   V(X87Float32Abs)                 \
   V(X87Float32Sqrt)                \
   V(X87Float32Round)               \
   V(X87LoadFloat64Constant)        \
   V(X87Float64Add)                 \
   V(X87Float64Sub)                 \
   V(X87Float64Mul)                 \
   V(X87Float64Div)                 \
   V(X87Float64Mod)                 \
   V(X87Float64Max)                 \
   V(X87Float64Min)                 \
   V(X87Float64Abs)                 \
   V(X87Int32ToFloat64)             \
   V(X87Float32ToFloat64)           \
   V(X87Uint32ToFloat64)            \
   V(X87Float64ToInt32)             \
   V(X87Float64ToFloat32)           \
   V(X87Float64ToUint32)            \
   V(X87Float64ExtractHighWord32)   \
   V(X87Float64ExtractLowWord32)    \
   V(X87Float64InsertHighWord32)    \
   V(X87Float64InsertLowWord32)     \
   V(X87Float64Sqrt)                \
   V(X87Float64Round)               \
   V(X87Float64Cmp)                 \
   V(X87Movsxbl)                    \
   V(X87Movzxbl)                    \
   V(X87Movb)                       \
   V(X87Movsxwl)                    \
   V(X87Movzxwl)                    \
   V(X87Movw)                       \
   V(X87Movl)                       \
   V(X87Movss)                      \
   V(X87Movsd)                      \
   V(X87Lea)                        \
   V(X87BitcastFI)                  \
   V(X87BitcastIF)                  \
   V(X87Push)                       \
   V(X87PushFloat64)                \
   V(X87PushFloat32)                \
   V(X87Poke)                       \
   V(X87StackCheck)


 // Addressing modes represent the "shape" of inputs to an instruction.
 // Many instructions support multiple addressing modes. Addressing modes
 // are encoded into the InstructionCode of the instruction and tell the
 // code generator after register allocation which assembler method to call.
 //
 // We use the following local notation for addressing modes:
 //
 // M = memory operand
 // R = base register
 // N = index register * N for N in {1, 2, 4, 8}
 // I = immediate displacement (int32_t)

 #define TARGET_ADDRESSING_MODE_LIST(V) \
   V(MR)   /* [%r1            ] */      \
   V(MRI)  /* [%r1         + K] */      \
   V(MR1)  /* [%r1 + %r2*1    ] */      \
   V(MR2)  /* [%r1 + %r2*2    ] */      \
   V(MR4)  /* [%r1 + %r2*4    ] */      \
   V(MR8)  /* [%r1 + %r2*8    ] */      \
   V(MR1I) /* [%r1 + %r2*1 + K] */      \
   V(MR2I) /* [%r1 + %r2*2 + K] */      \
   V(MR4I) /* [%r1 + %r2*3 + K] */      \
   V(MR8I) /* [%r1 + %r2*4 + K] */      \
   V(M1)   /* [      %r2*1    ] */      \
   V(M2)   /* [      %r2*2    ] */      \
   V(M4)   /* [      %r2*4    ] */      \
   V(M8)   /* [      %r2*8    ] */      \
   V(M1I)  /* [      %r2*1 + K] */      \
   V(M2I)  /* [      %r2*2 + K] */      \
   V(M4I)  /* [      %r2*4 + K] */      \
   V(M8I)  /* [      %r2*8 + K] */      \
   V(MI)   /* [              K] */

 }  // namespace compiler
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_COMPILER_X87_INSTRUCTION_CODES_X87_H_
	// Copyright 2014 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef V8_COMPILER_X87_INSTRUCTION_CODES_X87_H_
	#define V8_COMPILER_X87_INSTRUCTION_CODES_X87_H_

	#include "src/compiler/instruction.h"
	#include "src/compiler/instruction-codes.h"
	namespace v8 {
	namespace internal {
	namespace compiler {

	// X87-specific opcodes that specify which assembly sequence to emit.
	// Most opcodes specify a single instruction.
	#define TARGET_ARCH_OPCODE_LIST(V) \
	V(X87Add) \
	V(X87And) \
	V(X87Cmp) \
	V(X87Test) \
	V(X87Or) \
	V(X87Xor) \
	V(X87Sub) \
	V(X87Imul) \
	V(X87ImulHigh) \
	V(X87UmulHigh) \
	V(X87Idiv) \
	V(X87Udiv) \
	V(X87Not) \
	V(X87Neg) \
	V(X87Shl) \
	V(X87Shr) \
	V(X87Sar) \
	V(X87Ror) \
	V(X87Lzcnt) \
	V(X87Popcnt) \
	V(X87Float32Cmp) \
	V(X87Float32Add) \
	V(X87Float32Sub) \
	V(X87Float32Mul) \
	V(X87Float32Div) \
	V(X87Float32Max) \
	V(X87Float32Min) \
	V(X87Float32Abs) \
	V(X87Float32Sqrt) \
	V(X87Float32Round) \
	V(X87LoadFloat64Constant) \
	V(X87Float64Add) \
	V(X87Float64Sub) \
	V(X87Float64Mul) \
	V(X87Float64Div) \
	V(X87Float64Mod) \
	V(X87Float64Max) \
	V(X87Float64Min) \
	V(X87Float64Abs) \
	V(X87Int32ToFloat64) \
	V(X87Float32ToFloat64) \
	V(X87Uint32ToFloat64) \
	V(X87Float64ToInt32) \
	V(X87Float64ToFloat32) \
	V(X87Float64ToUint32) \
	V(X87Float64ExtractHighWord32) \
	V(X87Float64ExtractLowWord32) \
	V(X87Float64InsertHighWord32) \
	V(X87Float64InsertLowWord32) \
	V(X87Float64Sqrt) \
	V(X87Float64Round) \
	V(X87Float64Cmp) \
	V(X87Movsxbl) \
	V(X87Movzxbl) \
	V(X87Movb) \
	V(X87Movsxwl) \
	V(X87Movzxwl) \
	V(X87Movw) \
	V(X87Movl) \
	V(X87Movss) \
	V(X87Movsd) \
	V(X87Lea) \
	V(X87BitcastFI) \
	V(X87BitcastIF) \
	V(X87Push) \
	V(X87PushFloat64) \
	V(X87PushFloat32) \
	V(X87Poke) \
	V(X87StackCheck)


	// Addressing modes represent the "shape" of inputs to an instruction.
	// Many instructions support multiple addressing modes. Addressing modes
	// are encoded into the InstructionCode of the instruction and tell the
	// code generator after register allocation which assembler method to call.
	//
	// We use the following local notation for addressing modes:
	//
	// M = memory operand
	// R = base register
	// N = index register * N for N in {1, 2, 4, 8}
	// I = immediate displacement (int32_t)

	#define TARGET_ADDRESSING_MODE_LIST(V) \
	V(MR) /* [%r1 ] */ \
	V(MRI) /* [%r1 + K] */ \
	V(MR1) /* [%r1 + %r21 ] / \
	V(MR2) /* [%r1 + %r22 ] / \
	V(MR4) /* [%r1 + %r24 ] / \
	V(MR8) /* [%r1 + %r28 ] / \
	V(MR1I) /* [%r1 + %r21 + K] / \
	V(MR2I) /* [%r1 + %r22 + K] / \
	V(MR4I) /* [%r1 + %r23 + K] / \
	V(MR8I) /* [%r1 + %r24 + K] / \
	V(M1) /* [ %r21 ] / \
	V(M2) /* [ %r22 ] / \
	V(M4) /* [ %r24 ] / \
	V(M8) /* [ %r28 ] / \
	V(M1I) /* [ %r21 + K] / \
	V(M2I) /* [ %r22 + K] / \
	V(M4I) /* [ %r24 + K] / \
	V(M8I) /* [ %r28 + K] / \
	V(MI) /* [ K] */

	} // namespace compiler
	} // namespace internal
	} // namespace v8

	#endif // V8_COMPILER_X87_INSTRUCTION_CODES_X87_H_