1 // Copyright 2014 the V8 project authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef V8_COMPILER_ARM64_INSTRUCTION_CODES_ARM64_H_
6 #define V8_COMPILER_ARM64_INSTRUCTION_CODES_ARM64_H_
12 // ARM64-specific opcodes that specify which assembly sequence to emit.
13 // Most opcodes specify a single instruction.
14 #define TARGET_ARCH_OPCODE_LIST(V) \
73 V(Arm64PokePairZero) \
82 V(Arm64Float64Floor) \
84 V(Arm64Float64RoundTruncate) \
85 V(Arm64Float64RoundTiesAway) \
86 V(Arm64Float32ToFloat64) \
87 V(Arm64Float64ToFloat32) \
88 V(Arm64Float64ToInt32) \
89 V(Arm64Float64ToUint32) \
90 V(Arm64Int32ToFloat64) \
91 V(Arm64Uint32ToFloat64) \
106 V(Arm64StoreWriteBarrier)
109 // Addressing modes represent the "shape" of inputs to an instruction.
110 // Many instructions support multiple addressing modes. Addressing modes
111 // are encoded into the InstructionCode of the instruction and tell the
112 // code generator after register allocation which assembler method to call.
114 // We use the following local notation for addressing modes:
117 // O = register or stack slot
118 // D = double register
119 // I = immediate (handle, external, int32)
120 // MRI = [register + immediate]
121 // MRR = [register + register]
122 #define TARGET_ADDRESSING_MODE_LIST(V) \
123 V(MRI) /* [%r0 + K] */ \
124 V(MRR) /* [%r0 + %r1] */ \
125 V(Operand2_R_LSL_I) /* %r0 LSL K */ \
126 V(Operand2_R_LSR_I) /* %r0 LSR K */ \
127 V(Operand2_R_ASR_I) /* %r0 ASR K */ \
128 V(Operand2_R_ROR_I) /* %r0 ROR K */
130 } // namespace internal
131 } // namespace compiler
134 #endif // V8_COMPILER_ARM64_INSTRUCTION_CODES_ARM64_H_
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