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// Copyright 2015 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_BACKEND_S390_INSTRUCTION_CODES_S390_H_
#define V8_COMPILER_BACKEND_S390_INSTRUCTION_CODES_S390_H_
namespace v8 {
namespace internal {
namespace compiler {
// S390-specific opcodes that specify which assembly sequence to emit.
// Most opcodes specify a single instruction.
#define TARGET_ARCH_OPCODE_LIST(V) \
V(S390_Peek) \
V(S390_Abs32) \
V(S390_Abs64) \
V(S390_And32) \
V(S390_And64) \
V(S390_Or32) \
V(S390_Or64) \
V(S390_Xor32) \
V(S390_Xor64) \
V(S390_ShiftLeft32) \
V(S390_ShiftLeft64) \
V(S390_ShiftLeftPair) \
V(S390_ShiftRight32) \
V(S390_ShiftRight64) \
V(S390_ShiftRightPair) \
V(S390_ShiftRightArith32) \
V(S390_ShiftRightArith64) \
V(S390_ShiftRightArithPair) \
V(S390_RotRight32) \
V(S390_RotRight64) \
V(S390_Not32) \
V(S390_Not64) \
V(S390_RotLeftAndClear64) \
V(S390_RotLeftAndClearLeft64) \
V(S390_RotLeftAndClearRight64) \
V(S390_Lay) \
V(S390_Add32) \
V(S390_Add64) \
V(S390_AddPair) \
V(S390_AddFloat) \
V(S390_AddDouble) \
V(S390_Sub32) \
V(S390_Sub64) \
V(S390_SubFloat) \
V(S390_SubDouble) \
V(S390_SubPair) \
V(S390_MulPair) \
V(S390_Mul32) \
V(S390_Mul32WithOverflow) \
V(S390_Mul64) \
V(S390_MulHigh32) \
V(S390_MulHighU32) \
V(S390_MulFloat) \
V(S390_MulDouble) \
V(S390_Div32) \
V(S390_Div64) \
V(S390_DivU32) \
V(S390_DivU64) \
V(S390_DivFloat) \
V(S390_DivDouble) \
V(S390_Mod32) \
V(S390_Mod64) \
V(S390_ModU32) \
V(S390_ModU64) \
V(S390_ModDouble) \
V(S390_Neg32) \
V(S390_Neg64) \
V(S390_NegDouble) \
V(S390_NegFloat) \
V(S390_SqrtFloat) \
V(S390_FloorFloat) \
V(S390_CeilFloat) \
V(S390_TruncateFloat) \
V(S390_AbsFloat) \
V(S390_SqrtDouble) \
V(S390_FloorDouble) \
V(S390_CeilDouble) \
V(S390_TruncateDouble) \
V(S390_RoundDouble) \
V(S390_MaxFloat) \
V(S390_MaxDouble) \
V(S390_MinFloat) \
V(S390_MinDouble) \
V(S390_AbsDouble) \
V(S390_Cntlz32) \
V(S390_Cntlz64) \
V(S390_Popcnt32) \
V(S390_Popcnt64) \
V(S390_Cmp32) \
V(S390_Cmp64) \
V(S390_CmpFloat) \
V(S390_CmpDouble) \
V(S390_Tst32) \
V(S390_Tst64) \
V(S390_Push) \
V(S390_PushFrame) \
V(S390_StackClaim) \
V(S390_StoreToStackSlot) \
V(S390_SignExtendWord8ToInt32) \
V(S390_SignExtendWord16ToInt32) \
V(S390_SignExtendWord8ToInt64) \
V(S390_SignExtendWord16ToInt64) \
V(S390_SignExtendWord32ToInt64) \
V(S390_Uint32ToUint64) \
V(S390_Int64ToInt32) \
V(S390_Int64ToFloat32) \
V(S390_Int64ToDouble) \
V(S390_Uint64ToFloat32) \
V(S390_Uint64ToDouble) \
V(S390_Int32ToFloat32) \
V(S390_Int32ToDouble) \
V(S390_Uint32ToFloat32) \
V(S390_Uint32ToDouble) \
V(S390_Float32ToInt64) \
V(S390_Float32ToUint64) \
V(S390_Float32ToInt32) \
V(S390_Float32ToUint32) \
V(S390_Float32ToDouble) \
V(S390_Float64SilenceNaN) \
V(S390_DoubleToInt32) \
V(S390_DoubleToUint32) \
V(S390_DoubleToInt64) \
V(S390_DoubleToUint64) \
V(S390_DoubleToFloat32) \
V(S390_DoubleExtractLowWord32) \
V(S390_DoubleExtractHighWord32) \
V(S390_DoubleInsertLowWord32) \
V(S390_DoubleInsertHighWord32) \
V(S390_DoubleConstruct) \
V(S390_BitcastInt32ToFloat32) \
V(S390_BitcastFloat32ToInt32) \
V(S390_BitcastInt64ToDouble) \
V(S390_BitcastDoubleToInt64) \
V(S390_LoadWordS8) \
V(S390_LoadWordU8) \
V(S390_LoadWordS16) \
V(S390_LoadWordU16) \
V(S390_LoadWordS32) \
V(S390_LoadWordU32) \
V(S390_LoadAndTestWord32) \
V(S390_LoadAndTestWord64) \
V(S390_LoadAndTestFloat32) \
V(S390_LoadAndTestFloat64) \
V(S390_LoadReverse16RR) \
V(S390_LoadReverse32RR) \
V(S390_LoadReverse64RR) \
V(S390_LoadReverse16) \
V(S390_LoadReverse32) \
V(S390_LoadReverse64) \
V(S390_LoadWord64) \
V(S390_LoadFloat32) \
V(S390_LoadDouble) \
V(S390_StoreWord8) \
V(S390_StoreWord16) \
V(S390_StoreWord32) \
V(S390_StoreWord64) \
V(S390_StoreReverse16) \
V(S390_StoreReverse32) \
V(S390_StoreReverse64) \
V(S390_StoreFloat32) \
V(S390_StoreDouble) \
V(S390_DecompressSigned) \
V(S390_DecompressPointer) \
V(S390_DecompressAny) \
V(S390_CompressSigned) \
V(S390_CompressPointer) \
V(S390_CompressAny) \
V(S390_Word64AtomicExchangeUint8) \
V(S390_Word64AtomicExchangeUint16) \
V(S390_Word64AtomicExchangeUint32) \
V(S390_Word64AtomicExchangeUint64) \
V(S390_Word64AtomicCompareExchangeUint8) \
V(S390_Word64AtomicCompareExchangeUint16) \
V(S390_Word64AtomicCompareExchangeUint32) \
V(S390_Word64AtomicCompareExchangeUint64) \
V(S390_Word64AtomicAddUint8) \
V(S390_Word64AtomicAddUint16) \
V(S390_Word64AtomicAddUint32) \
V(S390_Word64AtomicAddUint64) \
V(S390_Word64AtomicSubUint8) \
V(S390_Word64AtomicSubUint16) \
V(S390_Word64AtomicSubUint32) \
V(S390_Word64AtomicSubUint64) \
V(S390_Word64AtomicAndUint8) \
V(S390_Word64AtomicAndUint16) \
V(S390_Word64AtomicAndUint32) \
V(S390_Word64AtomicAndUint64) \
V(S390_Word64AtomicOrUint8) \
V(S390_Word64AtomicOrUint16) \
V(S390_Word64AtomicOrUint32) \
V(S390_Word64AtomicOrUint64) \
V(S390_Word64AtomicXorUint8) \
V(S390_Word64AtomicXorUint16) \
V(S390_Word64AtomicXorUint32) \
V(S390_Word64AtomicXorUint64)
// 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:
//
// R = register
// O = register or stack slot
// D = double register
// I = immediate (handle, external, int32)
// MRI = [register + immediate]
// MRR = [register + register]
#define TARGET_ADDRESSING_MODE_LIST(V) \
V(MR) /* [%r0 ] */ \
V(MRI) /* [%r0 + K] */ \
V(MRR) /* [%r0 + %r1 ] */ \
V(MRRI) /* [%r0 + %r1 + K] */
} // namespace compiler
} // namespace internal
} // namespace v8
#endif // V8_COMPILER_BACKEND_S390_INSTRUCTION_CODES_S390_H_