// Code generated from _gen/MIPS64.rules using 'go generate'; DO NOT EDIT. package ssa import "cmd/compile/internal/types" func rewriteValueMIPS64(v *Value) bool { switch v.Op { case OpAbs: v.Op = OpMIPS64ABSD return true case OpAdd16: v.Op = OpMIPS64ADDV return true case OpAdd32: v.Op = OpMIPS64ADDV return true case OpAdd32F: v.Op = OpMIPS64ADDF return true case OpAdd64: v.Op = OpMIPS64ADDV return true case OpAdd64F: v.Op = OpMIPS64ADDD return true case OpAdd8: v.Op = OpMIPS64ADDV return true case OpAddPtr: v.Op = OpMIPS64ADDV return true case OpAddr: return rewriteValueMIPS64_OpAddr(v) case OpAnd16: v.Op = OpMIPS64AND return true case OpAnd32: v.Op = OpMIPS64AND return true case OpAnd64: v.Op = OpMIPS64AND return true case OpAnd8: v.Op = OpMIPS64AND return true case OpAndB: v.Op = OpMIPS64AND return true case OpAtomicAdd32: v.Op = OpMIPS64LoweredAtomicAdd32 return true case OpAtomicAdd64: v.Op = OpMIPS64LoweredAtomicAdd64 return true case OpAtomicAnd32: v.Op = OpMIPS64LoweredAtomicAnd32 return true case OpAtomicAnd8: return rewriteValueMIPS64_OpAtomicAnd8(v) case OpAtomicCompareAndSwap32: return rewriteValueMIPS64_OpAtomicCompareAndSwap32(v) case OpAtomicCompareAndSwap64: v.Op = OpMIPS64LoweredAtomicCas64 return true case OpAtomicExchange32: v.Op = OpMIPS64LoweredAtomicExchange32 return true case OpAtomicExchange64: v.Op = OpMIPS64LoweredAtomicExchange64 return true case OpAtomicLoad32: v.Op = OpMIPS64LoweredAtomicLoad32 return true case OpAtomicLoad64: v.Op = OpMIPS64LoweredAtomicLoad64 return true case OpAtomicLoad8: v.Op = OpMIPS64LoweredAtomicLoad8 return true case OpAtomicLoadPtr: v.Op = OpMIPS64LoweredAtomicLoad64 return true case OpAtomicOr32: v.Op = OpMIPS64LoweredAtomicOr32 return true case OpAtomicOr8: return rewriteValueMIPS64_OpAtomicOr8(v) case OpAtomicStore32: v.Op = OpMIPS64LoweredAtomicStore32 return true case OpAtomicStore64: v.Op = OpMIPS64LoweredAtomicStore64 return true case OpAtomicStore8: v.Op = OpMIPS64LoweredAtomicStore8 return true case OpAtomicStorePtrNoWB: v.Op = OpMIPS64LoweredAtomicStore64 return true case OpAvg64u: return rewriteValueMIPS64_OpAvg64u(v) case OpClosureCall: v.Op = OpMIPS64CALLclosure return true case OpCom16: return rewriteValueMIPS64_OpCom16(v) case OpCom32: return rewriteValueMIPS64_OpCom32(v) case OpCom64: return rewriteValueMIPS64_OpCom64(v) case OpCom8: return rewriteValueMIPS64_OpCom8(v) case OpConst16: return rewriteValueMIPS64_OpConst16(v) case OpConst32: return rewriteValueMIPS64_OpConst32(v) case OpConst32F: return rewriteValueMIPS64_OpConst32F(v) case OpConst64: return rewriteValueMIPS64_OpConst64(v) case OpConst64F: return rewriteValueMIPS64_OpConst64F(v) case OpConst8: return rewriteValueMIPS64_OpConst8(v) case OpConstBool: return rewriteValueMIPS64_OpConstBool(v) case OpConstNil: return rewriteValueMIPS64_OpConstNil(v) case OpCvt32Fto32: v.Op = OpMIPS64TRUNCFW return true case OpCvt32Fto64: v.Op = OpMIPS64TRUNCFV return true case OpCvt32Fto64F: v.Op = OpMIPS64MOVFD return true case OpCvt32to32F: v.Op = OpMIPS64MOVWF return true case OpCvt32to64F: v.Op = OpMIPS64MOVWD return true case OpCvt64Fto32: v.Op = OpMIPS64TRUNCDW return true case OpCvt64Fto32F: v.Op = OpMIPS64MOVDF return true case OpCvt64Fto64: v.Op = OpMIPS64TRUNCDV return true case OpCvt64to32F: v.Op = OpMIPS64MOVVF return true case OpCvt64to64F: v.Op = OpMIPS64MOVVD return true case OpCvtBoolToUint8: v.Op = OpCopy return true case OpDiv16: return rewriteValueMIPS64_OpDiv16(v) case OpDiv16u: return rewriteValueMIPS64_OpDiv16u(v) case OpDiv32: return rewriteValueMIPS64_OpDiv32(v) case OpDiv32F: v.Op = OpMIPS64DIVF return true case OpDiv32u: return rewriteValueMIPS64_OpDiv32u(v) case OpDiv64: return rewriteValueMIPS64_OpDiv64(v) case OpDiv64F: v.Op = OpMIPS64DIVD return true case OpDiv64u: return rewriteValueMIPS64_OpDiv64u(v) case OpDiv8: return rewriteValueMIPS64_OpDiv8(v) case OpDiv8u: return rewriteValueMIPS64_OpDiv8u(v) case OpEq16: return rewriteValueMIPS64_OpEq16(v) case OpEq32: return rewriteValueMIPS64_OpEq32(v) case OpEq32F: return rewriteValueMIPS64_OpEq32F(v) case OpEq64: return rewriteValueMIPS64_OpEq64(v) case OpEq64F: return rewriteValueMIPS64_OpEq64F(v) case OpEq8: return rewriteValueMIPS64_OpEq8(v) case OpEqB: return rewriteValueMIPS64_OpEqB(v) case OpEqPtr: return rewriteValueMIPS64_OpEqPtr(v) case OpGetCallerPC: v.Op = OpMIPS64LoweredGetCallerPC return true case OpGetCallerSP: v.Op = OpMIPS64LoweredGetCallerSP return true case OpGetClosurePtr: v.Op = OpMIPS64LoweredGetClosurePtr return true case OpHmul32: return rewriteValueMIPS64_OpHmul32(v) case OpHmul32u: return rewriteValueMIPS64_OpHmul32u(v) case OpHmul64: return rewriteValueMIPS64_OpHmul64(v) case OpHmul64u: return rewriteValueMIPS64_OpHmul64u(v) case OpInterCall: v.Op = OpMIPS64CALLinter return true case OpIsInBounds: return rewriteValueMIPS64_OpIsInBounds(v) case OpIsNonNil: return rewriteValueMIPS64_OpIsNonNil(v) case OpIsSliceInBounds: return rewriteValueMIPS64_OpIsSliceInBounds(v) case OpLeq16: return rewriteValueMIPS64_OpLeq16(v) case OpLeq16U: return rewriteValueMIPS64_OpLeq16U(v) case OpLeq32: return rewriteValueMIPS64_OpLeq32(v) case OpLeq32F: return rewriteValueMIPS64_OpLeq32F(v) case OpLeq32U: return rewriteValueMIPS64_OpLeq32U(v) case OpLeq64: return rewriteValueMIPS64_OpLeq64(v) case OpLeq64F: return rewriteValueMIPS64_OpLeq64F(v) case OpLeq64U: return rewriteValueMIPS64_OpLeq64U(v) case OpLeq8: return rewriteValueMIPS64_OpLeq8(v) case OpLeq8U: return rewriteValueMIPS64_OpLeq8U(v) case OpLess16: return rewriteValueMIPS64_OpLess16(v) case OpLess16U: return rewriteValueMIPS64_OpLess16U(v) case OpLess32: return rewriteValueMIPS64_OpLess32(v) case OpLess32F: return rewriteValueMIPS64_OpLess32F(v) case OpLess32U: return rewriteValueMIPS64_OpLess32U(v) case OpLess64: return rewriteValueMIPS64_OpLess64(v) case OpLess64F: return rewriteValueMIPS64_OpLess64F(v) case OpLess64U: return rewriteValueMIPS64_OpLess64U(v) case OpLess8: return rewriteValueMIPS64_OpLess8(v) case OpLess8U: return rewriteValueMIPS64_OpLess8U(v) case OpLoad: return rewriteValueMIPS64_OpLoad(v) case OpLocalAddr: return rewriteValueMIPS64_OpLocalAddr(v) case OpLsh16x16: return rewriteValueMIPS64_OpLsh16x16(v) case OpLsh16x32: return rewriteValueMIPS64_OpLsh16x32(v) case OpLsh16x64: return rewriteValueMIPS64_OpLsh16x64(v) case OpLsh16x8: return rewriteValueMIPS64_OpLsh16x8(v) case OpLsh32x16: return rewriteValueMIPS64_OpLsh32x16(v) case OpLsh32x32: return rewriteValueMIPS64_OpLsh32x32(v) case OpLsh32x64: return rewriteValueMIPS64_OpLsh32x64(v) case OpLsh32x8: return rewriteValueMIPS64_OpLsh32x8(v) case OpLsh64x16: return rewriteValueMIPS64_OpLsh64x16(v) case OpLsh64x32: return rewriteValueMIPS64_OpLsh64x32(v) case OpLsh64x64: return rewriteValueMIPS64_OpLsh64x64(v) case OpLsh64x8: return rewriteValueMIPS64_OpLsh64x8(v) case OpLsh8x16: return rewriteValueMIPS64_OpLsh8x16(v) case OpLsh8x32: return rewriteValueMIPS64_OpLsh8x32(v) case OpLsh8x64: return rewriteValueMIPS64_OpLsh8x64(v) case OpLsh8x8: return rewriteValueMIPS64_OpLsh8x8(v) case OpMIPS64ADDV: return rewriteValueMIPS64_OpMIPS64ADDV(v) case OpMIPS64ADDVconst: return rewriteValueMIPS64_OpMIPS64ADDVconst(v) case OpMIPS64AND: return rewriteValueMIPS64_OpMIPS64AND(v) case OpMIPS64ANDconst: return rewriteValueMIPS64_OpMIPS64ANDconst(v) case OpMIPS64LoweredAtomicAdd32: return rewriteValueMIPS64_OpMIPS64LoweredAtomicAdd32(v) case OpMIPS64LoweredAtomicAdd64: return rewriteValueMIPS64_OpMIPS64LoweredAtomicAdd64(v) case OpMIPS64LoweredAtomicStore32: return rewriteValueMIPS64_OpMIPS64LoweredAtomicStore32(v) case OpMIPS64LoweredAtomicStore64: return rewriteValueMIPS64_OpMIPS64LoweredAtomicStore64(v) case OpMIPS64MOVBUload: return rewriteValueMIPS64_OpMIPS64MOVBUload(v) case OpMIPS64MOVBUreg: return rewriteValueMIPS64_OpMIPS64MOVBUreg(v) case OpMIPS64MOVBload: return rewriteValueMIPS64_OpMIPS64MOVBload(v) case OpMIPS64MOVBreg: return rewriteValueMIPS64_OpMIPS64MOVBreg(v) case OpMIPS64MOVBstore: return rewriteValueMIPS64_OpMIPS64MOVBstore(v) case OpMIPS64MOVBstorezero: return rewriteValueMIPS64_OpMIPS64MOVBstorezero(v) case OpMIPS64MOVDload: return rewriteValueMIPS64_OpMIPS64MOVDload(v) case OpMIPS64MOVDstore: return rewriteValueMIPS64_OpMIPS64MOVDstore(v) case OpMIPS64MOVFload: return rewriteValueMIPS64_OpMIPS64MOVFload(v) case OpMIPS64MOVFstore: return rewriteValueMIPS64_OpMIPS64MOVFstore(v) case OpMIPS64MOVHUload: return rewriteValueMIPS64_OpMIPS64MOVHUload(v) case OpMIPS64MOVHUreg: return rewriteValueMIPS64_OpMIPS64MOVHUreg(v) case OpMIPS64MOVHload: return rewriteValueMIPS64_OpMIPS64MOVHload(v) case OpMIPS64MOVHreg: return rewriteValueMIPS64_OpMIPS64MOVHreg(v) case OpMIPS64MOVHstore: return rewriteValueMIPS64_OpMIPS64MOVHstore(v) case OpMIPS64MOVHstorezero: return rewriteValueMIPS64_OpMIPS64MOVHstorezero(v) case OpMIPS64MOVVload: return rewriteValueMIPS64_OpMIPS64MOVVload(v) case OpMIPS64MOVVnop: return rewriteValueMIPS64_OpMIPS64MOVVnop(v) case OpMIPS64MOVVreg: return rewriteValueMIPS64_OpMIPS64MOVVreg(v) case OpMIPS64MOVVstore: return rewriteValueMIPS64_OpMIPS64MOVVstore(v) case OpMIPS64MOVVstorezero: return rewriteValueMIPS64_OpMIPS64MOVVstorezero(v) case OpMIPS64MOVWUload: return rewriteValueMIPS64_OpMIPS64MOVWUload(v) case OpMIPS64MOVWUreg: return rewriteValueMIPS64_OpMIPS64MOVWUreg(v) case OpMIPS64MOVWload: return rewriteValueMIPS64_OpMIPS64MOVWload(v) case OpMIPS64MOVWreg: return rewriteValueMIPS64_OpMIPS64MOVWreg(v) case OpMIPS64MOVWstore: return rewriteValueMIPS64_OpMIPS64MOVWstore(v) case OpMIPS64MOVWstorezero: return rewriteValueMIPS64_OpMIPS64MOVWstorezero(v) case OpMIPS64NEGV: return rewriteValueMIPS64_OpMIPS64NEGV(v) case OpMIPS64NOR: return rewriteValueMIPS64_OpMIPS64NOR(v) case OpMIPS64NORconst: return rewriteValueMIPS64_OpMIPS64NORconst(v) case OpMIPS64OR: return rewriteValueMIPS64_OpMIPS64OR(v) case OpMIPS64ORconst: return rewriteValueMIPS64_OpMIPS64ORconst(v) case OpMIPS64SGT: return rewriteValueMIPS64_OpMIPS64SGT(v) case OpMIPS64SGTU: return rewriteValueMIPS64_OpMIPS64SGTU(v) case OpMIPS64SGTUconst: return rewriteValueMIPS64_OpMIPS64SGTUconst(v) case OpMIPS64SGTconst: return rewriteValueMIPS64_OpMIPS64SGTconst(v) case OpMIPS64SLLV: return rewriteValueMIPS64_OpMIPS64SLLV(v) case OpMIPS64SLLVconst: return rewriteValueMIPS64_OpMIPS64SLLVconst(v) case OpMIPS64SRAV: return rewriteValueMIPS64_OpMIPS64SRAV(v) case OpMIPS64SRAVconst: return rewriteValueMIPS64_OpMIPS64SRAVconst(v) case OpMIPS64SRLV: return rewriteValueMIPS64_OpMIPS64SRLV(v) case OpMIPS64SRLVconst: return rewriteValueMIPS64_OpMIPS64SRLVconst(v) case OpMIPS64SUBV: return rewriteValueMIPS64_OpMIPS64SUBV(v) case OpMIPS64SUBVconst: return rewriteValueMIPS64_OpMIPS64SUBVconst(v) case OpMIPS64XOR: return rewriteValueMIPS64_OpMIPS64XOR(v) case OpMIPS64XORconst: return rewriteValueMIPS64_OpMIPS64XORconst(v) case OpMod16: return rewriteValueMIPS64_OpMod16(v) case OpMod16u: return rewriteValueMIPS64_OpMod16u(v) case OpMod32: return rewriteValueMIPS64_OpMod32(v) case OpMod32u: return rewriteValueMIPS64_OpMod32u(v) case OpMod64: return rewriteValueMIPS64_OpMod64(v) case OpMod64u: return rewriteValueMIPS64_OpMod64u(v) case OpMod8: return rewriteValueMIPS64_OpMod8(v) case OpMod8u: return rewriteValueMIPS64_OpMod8u(v) case OpMove: return rewriteValueMIPS64_OpMove(v) case OpMul16: return rewriteValueMIPS64_OpMul16(v) case OpMul32: return rewriteValueMIPS64_OpMul32(v) case OpMul32F: v.Op = OpMIPS64MULF return true case OpMul64: return rewriteValueMIPS64_OpMul64(v) case OpMul64F: v.Op = OpMIPS64MULD return true case OpMul64uhilo: v.Op = OpMIPS64MULVU return true case OpMul8: return rewriteValueMIPS64_OpMul8(v) case OpNeg16: v.Op = OpMIPS64NEGV return true case OpNeg32: v.Op = OpMIPS64NEGV return true case OpNeg32F: v.Op = OpMIPS64NEGF return true case OpNeg64: v.Op = OpMIPS64NEGV return true case OpNeg64F: v.Op = OpMIPS64NEGD return true case OpNeg8: v.Op = OpMIPS64NEGV return true case OpNeq16: return rewriteValueMIPS64_OpNeq16(v) case OpNeq32: return rewriteValueMIPS64_OpNeq32(v) case OpNeq32F: return rewriteValueMIPS64_OpNeq32F(v) case OpNeq64: return rewriteValueMIPS64_OpNeq64(v) case OpNeq64F: return rewriteValueMIPS64_OpNeq64F(v) case OpNeq8: return rewriteValueMIPS64_OpNeq8(v) case OpNeqB: v.Op = OpMIPS64XOR return true case OpNeqPtr: return rewriteValueMIPS64_OpNeqPtr(v) case OpNilCheck: v.Op = OpMIPS64LoweredNilCheck return true case OpNot: return rewriteValueMIPS64_OpNot(v) case OpOffPtr: return rewriteValueMIPS64_OpOffPtr(v) case OpOr16: v.Op = OpMIPS64OR return true case OpOr32: v.Op = OpMIPS64OR return true case OpOr64: v.Op = OpMIPS64OR return true case OpOr8: v.Op = OpMIPS64OR return true case OpOrB: v.Op = OpMIPS64OR return true case OpPanicBounds: return rewriteValueMIPS64_OpPanicBounds(v) case OpRotateLeft16: return rewriteValueMIPS64_OpRotateLeft16(v) case OpRotateLeft32: return rewriteValueMIPS64_OpRotateLeft32(v) case OpRotateLeft64: return rewriteValueMIPS64_OpRotateLeft64(v) case OpRotateLeft8: return rewriteValueMIPS64_OpRotateLeft8(v) case OpRound32F: v.Op = OpCopy return true case OpRound64F: v.Op = OpCopy return true case OpRsh16Ux16: return rewriteValueMIPS64_OpRsh16Ux16(v) case OpRsh16Ux32: return rewriteValueMIPS64_OpRsh16Ux32(v) case OpRsh16Ux64: return rewriteValueMIPS64_OpRsh16Ux64(v) case OpRsh16Ux8: return rewriteValueMIPS64_OpRsh16Ux8(v) case OpRsh16x16: return rewriteValueMIPS64_OpRsh16x16(v) case OpRsh16x32: return rewriteValueMIPS64_OpRsh16x32(v) case OpRsh16x64: return rewriteValueMIPS64_OpRsh16x64(v) case OpRsh16x8: return rewriteValueMIPS64_OpRsh16x8(v) case OpRsh32Ux16: return rewriteValueMIPS64_OpRsh32Ux16(v) case OpRsh32Ux32: return rewriteValueMIPS64_OpRsh32Ux32(v) case OpRsh32Ux64: return rewriteValueMIPS64_OpRsh32Ux64(v) case OpRsh32Ux8: return rewriteValueMIPS64_OpRsh32Ux8(v) case OpRsh32x16: return rewriteValueMIPS64_OpRsh32x16(v) case OpRsh32x32: return rewriteValueMIPS64_OpRsh32x32(v) case OpRsh32x64: return rewriteValueMIPS64_OpRsh32x64(v) case OpRsh32x8: return rewriteValueMIPS64_OpRsh32x8(v) case OpRsh64Ux16: return rewriteValueMIPS64_OpRsh64Ux16(v) case OpRsh64Ux32: return rewriteValueMIPS64_OpRsh64Ux32(v) case OpRsh64Ux64: return rewriteValueMIPS64_OpRsh64Ux64(v) case OpRsh64Ux8: return rewriteValueMIPS64_OpRsh64Ux8(v) case OpRsh64x16: return rewriteValueMIPS64_OpRsh64x16(v) case OpRsh64x32: return rewriteValueMIPS64_OpRsh64x32(v) case OpRsh64x64: return rewriteValueMIPS64_OpRsh64x64(v) case OpRsh64x8: return rewriteValueMIPS64_OpRsh64x8(v) case OpRsh8Ux16: return rewriteValueMIPS64_OpRsh8Ux16(v) case OpRsh8Ux32: return rewriteValueMIPS64_OpRsh8Ux32(v) case OpRsh8Ux64: return rewriteValueMIPS64_OpRsh8Ux64(v) case OpRsh8Ux8: return rewriteValueMIPS64_OpRsh8Ux8(v) case OpRsh8x16: return rewriteValueMIPS64_OpRsh8x16(v) case OpRsh8x32: return rewriteValueMIPS64_OpRsh8x32(v) case OpRsh8x64: return rewriteValueMIPS64_OpRsh8x64(v) case OpRsh8x8: return rewriteValueMIPS64_OpRsh8x8(v) case OpSelect0: return rewriteValueMIPS64_OpSelect0(v) case OpSelect1: return rewriteValueMIPS64_OpSelect1(v) case OpSignExt16to32: v.Op = OpMIPS64MOVHreg return true case OpSignExt16to64: v.Op = OpMIPS64MOVHreg return true case OpSignExt32to64: v.Op = OpMIPS64MOVWreg return true case OpSignExt8to16: v.Op = OpMIPS64MOVBreg return true case OpSignExt8to32: v.Op = OpMIPS64MOVBreg return true case OpSignExt8to64: v.Op = OpMIPS64MOVBreg return true case OpSlicemask: return rewriteValueMIPS64_OpSlicemask(v) case OpSqrt: v.Op = OpMIPS64SQRTD return true case OpSqrt32: v.Op = OpMIPS64SQRTF return true case OpStaticCall: v.Op = OpMIPS64CALLstatic return true case OpStore: return rewriteValueMIPS64_OpStore(v) case OpSub16: v.Op = OpMIPS64SUBV return true case OpSub32: v.Op = OpMIPS64SUBV return true case OpSub32F: v.Op = OpMIPS64SUBF return true case OpSub64: v.Op = OpMIPS64SUBV return true case OpSub64F: v.Op = OpMIPS64SUBD return true case OpSub8: v.Op = OpMIPS64SUBV return true case OpSubPtr: v.Op = OpMIPS64SUBV return true case OpTailCall: v.Op = OpMIPS64CALLtail return true case OpTrunc16to8: v.Op = OpCopy return true case OpTrunc32to16: v.Op = OpCopy return true case OpTrunc32to8: v.Op = OpCopy return true case OpTrunc64to16: v.Op = OpCopy return true case OpTrunc64to32: v.Op = OpCopy return true case OpTrunc64to8: v.Op = OpCopy return true case OpWB: v.Op = OpMIPS64LoweredWB return true case OpXor16: v.Op = OpMIPS64XOR return true case OpXor32: v.Op = OpMIPS64XOR return true case OpXor64: v.Op = OpMIPS64XOR return true case OpXor8: v.Op = OpMIPS64XOR return true case OpZero: return rewriteValueMIPS64_OpZero(v) case OpZeroExt16to32: v.Op = OpMIPS64MOVHUreg return true case OpZeroExt16to64: v.Op = OpMIPS64MOVHUreg return true case OpZeroExt32to64: v.Op = OpMIPS64MOVWUreg return true case OpZeroExt8to16: v.Op = OpMIPS64MOVBUreg return true case OpZeroExt8to32: v.Op = OpMIPS64MOVBUreg return true case OpZeroExt8to64: v.Op = OpMIPS64MOVBUreg return true } return false } func rewriteValueMIPS64_OpAddr(v *Value) bool { v_0 := v.Args[0] // match: (Addr {sym} base) // result: (MOVVaddr {sym} base) for { sym := auxToSym(v.Aux) base := v_0 v.reset(OpMIPS64MOVVaddr) v.Aux = symToAux(sym) v.AddArg(base) return true } } func rewriteValueMIPS64_OpAtomicAnd8(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (AtomicAnd8 ptr val mem) // cond: !config.BigEndian // result: (LoweredAtomicAnd32 (AND (MOVVconst [^3]) ptr) (OR (SLLV (ZeroExt8to32 val) (SLLVconst [3] (ANDconst [3] ptr))) (NORconst [0] (SLLV (MOVVconst [0xff]) (SLLVconst [3] (ANDconst [3] ptr))))) mem) for { ptr := v_0 val := v_1 mem := v_2 if !(!config.BigEndian) { break } v.reset(OpMIPS64LoweredAtomicAnd32) v0 := b.NewValue0(v.Pos, OpMIPS64AND, typ.UInt32Ptr) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(^3) v0.AddArg2(v1, ptr) v2 := b.NewValue0(v.Pos, OpMIPS64OR, typ.UInt64) v3 := b.NewValue0(v.Pos, OpMIPS64SLLV, typ.UInt32) v4 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v4.AddArg(val) v5 := b.NewValue0(v.Pos, OpMIPS64SLLVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(3) v6 := b.NewValue0(v.Pos, OpMIPS64ANDconst, typ.UInt64) v6.AuxInt = int64ToAuxInt(3) v6.AddArg(ptr) v5.AddArg(v6) v3.AddArg2(v4, v5) v7 := b.NewValue0(v.Pos, OpMIPS64NORconst, typ.UInt64) v7.AuxInt = int64ToAuxInt(0) v8 := b.NewValue0(v.Pos, OpMIPS64SLLV, typ.UInt64) v9 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v9.AuxInt = int64ToAuxInt(0xff) v8.AddArg2(v9, v5) v7.AddArg(v8) v2.AddArg2(v3, v7) v.AddArg3(v0, v2, mem) return true } // match: (AtomicAnd8 ptr val mem) // cond: config.BigEndian // result: (LoweredAtomicAnd32 (AND (MOVVconst [^3]) ptr) (OR (SLLV (ZeroExt8to32 val) (SLLVconst [3] (ANDconst [3] (XORconst [3] ptr)))) (NORconst [0] (SLLV (MOVVconst [0xff]) (SLLVconst [3] (ANDconst [3] (XORconst [3] ptr)))))) mem) for { ptr := v_0 val := v_1 mem := v_2 if !(config.BigEndian) { break } v.reset(OpMIPS64LoweredAtomicAnd32) v0 := b.NewValue0(v.Pos, OpMIPS64AND, typ.UInt32Ptr) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(^3) v0.AddArg2(v1, ptr) v2 := b.NewValue0(v.Pos, OpMIPS64OR, typ.UInt64) v3 := b.NewValue0(v.Pos, OpMIPS64SLLV, typ.UInt32) v4 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v4.AddArg(val) v5 := b.NewValue0(v.Pos, OpMIPS64SLLVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(3) v6 := b.NewValue0(v.Pos, OpMIPS64ANDconst, typ.UInt64) v6.AuxInt = int64ToAuxInt(3) v7 := b.NewValue0(v.Pos, OpMIPS64XORconst, typ.UInt64) v7.AuxInt = int64ToAuxInt(3) v7.AddArg(ptr) v6.AddArg(v7) v5.AddArg(v6) v3.AddArg2(v4, v5) v8 := b.NewValue0(v.Pos, OpMIPS64NORconst, typ.UInt64) v8.AuxInt = int64ToAuxInt(0) v9 := b.NewValue0(v.Pos, OpMIPS64SLLV, typ.UInt64) v10 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v10.AuxInt = int64ToAuxInt(0xff) v9.AddArg2(v10, v5) v8.AddArg(v9) v2.AddArg2(v3, v8) v.AddArg3(v0, v2, mem) return true } return false } func rewriteValueMIPS64_OpAtomicCompareAndSwap32(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (AtomicCompareAndSwap32 ptr old new mem) // result: (LoweredAtomicCas32 ptr (SignExt32to64 old) new mem) for { ptr := v_0 old := v_1 new := v_2 mem := v_3 v.reset(OpMIPS64LoweredAtomicCas32) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(old) v.AddArg4(ptr, v0, new, mem) return true } } func rewriteValueMIPS64_OpAtomicOr8(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (AtomicOr8 ptr val mem) // cond: !config.BigEndian // result: (LoweredAtomicOr32 (AND (MOVVconst [^3]) ptr) (SLLV (ZeroExt8to32 val) (SLLVconst [3] (ANDconst [3] ptr))) mem) for { ptr := v_0 val := v_1 mem := v_2 if !(!config.BigEndian) { break } v.reset(OpMIPS64LoweredAtomicOr32) v0 := b.NewValue0(v.Pos, OpMIPS64AND, typ.UInt32Ptr) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(^3) v0.AddArg2(v1, ptr) v2 := b.NewValue0(v.Pos, OpMIPS64SLLV, typ.UInt32) v3 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v3.AddArg(val) v4 := b.NewValue0(v.Pos, OpMIPS64SLLVconst, typ.UInt64) v4.AuxInt = int64ToAuxInt(3) v5 := b.NewValue0(v.Pos, OpMIPS64ANDconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(3) v5.AddArg(ptr) v4.AddArg(v5) v2.AddArg2(v3, v4) v.AddArg3(v0, v2, mem) return true } // match: (AtomicOr8 ptr val mem) // cond: config.BigEndian // result: (LoweredAtomicOr32 (AND (MOVVconst [^3]) ptr) (SLLV (ZeroExt8to32 val) (SLLVconst [3] (ANDconst [3] (XORconst [3] ptr)))) mem) for { ptr := v_0 val := v_1 mem := v_2 if !(config.BigEndian) { break } v.reset(OpMIPS64LoweredAtomicOr32) v0 := b.NewValue0(v.Pos, OpMIPS64AND, typ.UInt32Ptr) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(^3) v0.AddArg2(v1, ptr) v2 := b.NewValue0(v.Pos, OpMIPS64SLLV, typ.UInt32) v3 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v3.AddArg(val) v4 := b.NewValue0(v.Pos, OpMIPS64SLLVconst, typ.UInt64) v4.AuxInt = int64ToAuxInt(3) v5 := b.NewValue0(v.Pos, OpMIPS64ANDconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(3) v6 := b.NewValue0(v.Pos, OpMIPS64XORconst, typ.UInt64) v6.AuxInt = int64ToAuxInt(3) v6.AddArg(ptr) v5.AddArg(v6) v4.AddArg(v5) v2.AddArg2(v3, v4) v.AddArg3(v0, v2, mem) return true } return false } func rewriteValueMIPS64_OpAvg64u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Avg64u x y) // result: (ADDV (SRLVconst (SUBV x y) [1]) y) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64ADDV) v0 := b.NewValue0(v.Pos, OpMIPS64SRLVconst, t) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SUBV, t) v1.AddArg2(x, y) v0.AddArg(v1) v.AddArg2(v0, y) return true } } func rewriteValueMIPS64_OpCom16(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Com16 x) // result: (NOR (MOVVconst [0]) x) for { x := v_0 v.reset(OpMIPS64NOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, x) return true } } func rewriteValueMIPS64_OpCom32(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Com32 x) // result: (NOR (MOVVconst [0]) x) for { x := v_0 v.reset(OpMIPS64NOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, x) return true } } func rewriteValueMIPS64_OpCom64(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Com64 x) // result: (NOR (MOVVconst [0]) x) for { x := v_0 v.reset(OpMIPS64NOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, x) return true } } func rewriteValueMIPS64_OpCom8(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Com8 x) // result: (NOR (MOVVconst [0]) x) for { x := v_0 v.reset(OpMIPS64NOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, x) return true } } func rewriteValueMIPS64_OpConst16(v *Value) bool { // match: (Const16 [val]) // result: (MOVVconst [int64(val)]) for { val := auxIntToInt16(v.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(val)) return true } } func rewriteValueMIPS64_OpConst32(v *Value) bool { // match: (Const32 [val]) // result: (MOVVconst [int64(val)]) for { val := auxIntToInt32(v.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(val)) return true } } func rewriteValueMIPS64_OpConst32F(v *Value) bool { // match: (Const32F [val]) // result: (MOVFconst [float64(val)]) for { val := auxIntToFloat32(v.AuxInt) v.reset(OpMIPS64MOVFconst) v.AuxInt = float64ToAuxInt(float64(val)) return true } } func rewriteValueMIPS64_OpConst64(v *Value) bool { // match: (Const64 [val]) // result: (MOVVconst [int64(val)]) for { val := auxIntToInt64(v.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(val)) return true } } func rewriteValueMIPS64_OpConst64F(v *Value) bool { // match: (Const64F [val]) // result: (MOVDconst [float64(val)]) for { val := auxIntToFloat64(v.AuxInt) v.reset(OpMIPS64MOVDconst) v.AuxInt = float64ToAuxInt(float64(val)) return true } } func rewriteValueMIPS64_OpConst8(v *Value) bool { // match: (Const8 [val]) // result: (MOVVconst [int64(val)]) for { val := auxIntToInt8(v.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(val)) return true } } func rewriteValueMIPS64_OpConstBool(v *Value) bool { // match: (ConstBool [t]) // result: (MOVVconst [int64(b2i(t))]) for { t := auxIntToBool(v.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(b2i(t))) return true } } func rewriteValueMIPS64_OpConstNil(v *Value) bool { // match: (ConstNil) // result: (MOVVconst [0]) for { v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } } func rewriteValueMIPS64_OpDiv16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Div16 x y) // result: (Select1 (DIVV (SignExt16to64 x) (SignExt16to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64DIVV, types.NewTuple(typ.Int64, typ.Int64)) v1 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpDiv16u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Div16u x y) // result: (Select1 (DIVVU (ZeroExt16to64 x) (ZeroExt16to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64DIVVU, types.NewTuple(typ.UInt64, typ.UInt64)) v1 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpDiv32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Div32 x y) // result: (Select1 (DIVV (SignExt32to64 x) (SignExt32to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64DIVV, types.NewTuple(typ.Int64, typ.Int64)) v1 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpDiv32u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Div32u x y) // result: (Select1 (DIVVU (ZeroExt32to64 x) (ZeroExt32to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64DIVVU, types.NewTuple(typ.UInt64, typ.UInt64)) v1 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpDiv64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Div64 x y) // result: (Select1 (DIVV x y)) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64DIVV, types.NewTuple(typ.Int64, typ.Int64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpDiv64u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Div64u x y) // result: (Select1 (DIVVU x y)) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64DIVVU, types.NewTuple(typ.UInt64, typ.UInt64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpDiv8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Div8 x y) // result: (Select1 (DIVV (SignExt8to64 x) (SignExt8to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64DIVV, types.NewTuple(typ.Int64, typ.Int64)) v1 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpDiv8u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Div8u x y) // result: (Select1 (DIVVU (ZeroExt8to64 x) (ZeroExt8to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64DIVVU, types.NewTuple(typ.UInt64, typ.UInt64)) v1 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpEq16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Eq16 x y) // result: (SGTU (MOVVconst [1]) (XOR (ZeroExt16to64 x) (ZeroExt16to64 y))) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v2 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpEq32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Eq32 x y) // result: (SGTU (MOVVconst [1]) (XOR (ZeroExt32to64 x) (ZeroExt32to64 y))) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v2 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpEq32F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Eq32F x y) // result: (FPFlagTrue (CMPEQF x y)) for { x := v_0 y := v_1 v.reset(OpMIPS64FPFlagTrue) v0 := b.NewValue0(v.Pos, OpMIPS64CMPEQF, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpEq64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Eq64 x y) // result: (SGTU (MOVVconst [1]) (XOR x y)) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v1.AddArg2(x, y) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpEq64F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Eq64F x y) // result: (FPFlagTrue (CMPEQD x y)) for { x := v_0 y := v_1 v.reset(OpMIPS64FPFlagTrue) v0 := b.NewValue0(v.Pos, OpMIPS64CMPEQD, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpEq8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Eq8 x y) // result: (SGTU (MOVVconst [1]) (XOR (ZeroExt8to64 x) (ZeroExt8to64 y))) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v2 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpEqB(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (EqB x y) // result: (XOR (MOVVconst [1]) (XOR x y)) for { x := v_0 y := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.Bool) v1.AddArg2(x, y) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpEqPtr(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (EqPtr x y) // result: (SGTU (MOVVconst [1]) (XOR x y)) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v1.AddArg2(x, y) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpHmul32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Hmul32 x y) // result: (SRAVconst (Select1 (MULV (SignExt32to64 x) (SignExt32to64 y))) [32]) for { x := v_0 y := v_1 v.reset(OpMIPS64SRAVconst) v.AuxInt = int64ToAuxInt(32) v0 := b.NewValue0(v.Pos, OpSelect1, typ.Int64) v1 := b.NewValue0(v.Pos, OpMIPS64MULV, types.NewTuple(typ.Int64, typ.Int64)) v2 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpHmul32u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Hmul32u x y) // result: (SRLVconst (Select1 (MULVU (ZeroExt32to64 x) (ZeroExt32to64 y))) [32]) for { x := v_0 y := v_1 v.reset(OpMIPS64SRLVconst) v.AuxInt = int64ToAuxInt(32) v0 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v1 := b.NewValue0(v.Pos, OpMIPS64MULVU, types.NewTuple(typ.UInt64, typ.UInt64)) v2 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpHmul64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Hmul64 x y) // result: (Select0 (MULV x y)) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64MULV, types.NewTuple(typ.Int64, typ.Int64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpHmul64u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Hmul64u x y) // result: (Select0 (MULVU x y)) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64MULVU, types.NewTuple(typ.UInt64, typ.UInt64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpIsInBounds(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (IsInBounds idx len) // result: (SGTU len idx) for { idx := v_0 len := v_1 v.reset(OpMIPS64SGTU) v.AddArg2(len, idx) return true } } func rewriteValueMIPS64_OpIsNonNil(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (IsNonNil ptr) // result: (SGTU ptr (MOVVconst [0])) for { ptr := v_0 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(ptr, v0) return true } } func rewriteValueMIPS64_OpIsSliceInBounds(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (IsSliceInBounds idx len) // result: (XOR (MOVVconst [1]) (SGTU idx len)) for { idx := v_0 len := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v1.AddArg2(idx, len) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLeq16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Leq16 x y) // result: (XOR (MOVVconst [1]) (SGT (SignExt16to64 x) (SignExt16to64 y))) for { x := v_0 y := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SGT, typ.Bool) v2 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v3.AddArg(y) v1.AddArg2(v2, v3) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLeq16U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Leq16U x y) // result: (XOR (MOVVconst [1]) (SGTU (ZeroExt16to64 x) (ZeroExt16to64 y))) for { x := v_0 y := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLeq32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Leq32 x y) // result: (XOR (MOVVconst [1]) (SGT (SignExt32to64 x) (SignExt32to64 y))) for { x := v_0 y := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SGT, typ.Bool) v2 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v3.AddArg(y) v1.AddArg2(v2, v3) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLeq32F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Leq32F x y) // result: (FPFlagTrue (CMPGEF y x)) for { x := v_0 y := v_1 v.reset(OpMIPS64FPFlagTrue) v0 := b.NewValue0(v.Pos, OpMIPS64CMPGEF, types.TypeFlags) v0.AddArg2(y, x) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpLeq32U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Leq32U x y) // result: (XOR (MOVVconst [1]) (SGTU (ZeroExt32to64 x) (ZeroExt32to64 y))) for { x := v_0 y := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLeq64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Leq64 x y) // result: (XOR (MOVVconst [1]) (SGT x y)) for { x := v_0 y := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SGT, typ.Bool) v1.AddArg2(x, y) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLeq64F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Leq64F x y) // result: (FPFlagTrue (CMPGED y x)) for { x := v_0 y := v_1 v.reset(OpMIPS64FPFlagTrue) v0 := b.NewValue0(v.Pos, OpMIPS64CMPGED, types.TypeFlags) v0.AddArg2(y, x) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpLeq64U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Leq64U x y) // result: (XOR (MOVVconst [1]) (SGTU x y)) for { x := v_0 y := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v1.AddArg2(x, y) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLeq8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Leq8 x y) // result: (XOR (MOVVconst [1]) (SGT (SignExt8to64 x) (SignExt8to64 y))) for { x := v_0 y := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SGT, typ.Bool) v2 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v3.AddArg(y) v1.AddArg2(v2, v3) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLeq8U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Leq8U x y) // result: (XOR (MOVVconst [1]) (SGTU (ZeroExt8to64 x) (ZeroExt8to64 y))) for { x := v_0 y := v_1 v.reset(OpMIPS64XOR) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v2.AddArg(x) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLess16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less16 x y) // result: (SGT (SignExt16to64 y) (SignExt16to64 x)) for { x := v_0 y := v_1 v.reset(OpMIPS64SGT) v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(y) v1 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v1.AddArg(x) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLess16U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less16U x y) // result: (SGTU (ZeroExt16to64 y) (ZeroExt16to64 x)) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v0.AddArg(y) v1 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v1.AddArg(x) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLess32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less32 x y) // result: (SGT (SignExt32to64 y) (SignExt32to64 x)) for { x := v_0 y := v_1 v.reset(OpMIPS64SGT) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(y) v1 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v1.AddArg(x) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLess32F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Less32F x y) // result: (FPFlagTrue (CMPGTF y x)) for { x := v_0 y := v_1 v.reset(OpMIPS64FPFlagTrue) v0 := b.NewValue0(v.Pos, OpMIPS64CMPGTF, types.TypeFlags) v0.AddArg2(y, x) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpLess32U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less32U x y) // result: (SGTU (ZeroExt32to64 y) (ZeroExt32to64 x)) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v0.AddArg(y) v1 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v1.AddArg(x) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLess64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (Less64 x y) // result: (SGT y x) for { x := v_0 y := v_1 v.reset(OpMIPS64SGT) v.AddArg2(y, x) return true } } func rewriteValueMIPS64_OpLess64F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Less64F x y) // result: (FPFlagTrue (CMPGTD y x)) for { x := v_0 y := v_1 v.reset(OpMIPS64FPFlagTrue) v0 := b.NewValue0(v.Pos, OpMIPS64CMPGTD, types.TypeFlags) v0.AddArg2(y, x) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpLess64U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (Less64U x y) // result: (SGTU y x) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v.AddArg2(y, x) return true } } func rewriteValueMIPS64_OpLess8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less8 x y) // result: (SGT (SignExt8to64 y) (SignExt8to64 x)) for { x := v_0 y := v_1 v.reset(OpMIPS64SGT) v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(y) v1 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v1.AddArg(x) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLess8U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less8U x y) // result: (SGTU (ZeroExt8to64 y) (ZeroExt8to64 x)) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v0.AddArg(y) v1 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v1.AddArg(x) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpLoad(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (Load ptr mem) // cond: t.IsBoolean() // result: (MOVBUload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(t.IsBoolean()) { break } v.reset(OpMIPS64MOVBUload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: (is8BitInt(t) && t.IsSigned()) // result: (MOVBload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is8BitInt(t) && t.IsSigned()) { break } v.reset(OpMIPS64MOVBload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: (is8BitInt(t) && !t.IsSigned()) // result: (MOVBUload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is8BitInt(t) && !t.IsSigned()) { break } v.reset(OpMIPS64MOVBUload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: (is16BitInt(t) && t.IsSigned()) // result: (MOVHload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is16BitInt(t) && t.IsSigned()) { break } v.reset(OpMIPS64MOVHload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: (is16BitInt(t) && !t.IsSigned()) // result: (MOVHUload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is16BitInt(t) && !t.IsSigned()) { break } v.reset(OpMIPS64MOVHUload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: (is32BitInt(t) && t.IsSigned()) // result: (MOVWload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is32BitInt(t) && t.IsSigned()) { break } v.reset(OpMIPS64MOVWload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: (is32BitInt(t) && !t.IsSigned()) // result: (MOVWUload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is32BitInt(t) && !t.IsSigned()) { break } v.reset(OpMIPS64MOVWUload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: (is64BitInt(t) || isPtr(t)) // result: (MOVVload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is64BitInt(t) || isPtr(t)) { break } v.reset(OpMIPS64MOVVload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: is32BitFloat(t) // result: (MOVFload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is32BitFloat(t)) { break } v.reset(OpMIPS64MOVFload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: is64BitFloat(t) // result: (MOVDload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is64BitFloat(t)) { break } v.reset(OpMIPS64MOVDload) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpLocalAddr(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (LocalAddr {sym} base mem) // cond: t.Elem().HasPointers() // result: (MOVVaddr {sym} (SPanchored base mem)) for { t := v.Type sym := auxToSym(v.Aux) base := v_0 mem := v_1 if !(t.Elem().HasPointers()) { break } v.reset(OpMIPS64MOVVaddr) v.Aux = symToAux(sym) v0 := b.NewValue0(v.Pos, OpSPanchored, typ.Uintptr) v0.AddArg2(base, mem) v.AddArg(v0) return true } // match: (LocalAddr {sym} base _) // cond: !t.Elem().HasPointers() // result: (MOVVaddr {sym} base) for { t := v.Type sym := auxToSym(v.Aux) base := v_0 if !(!t.Elem().HasPointers()) { break } v.reset(OpMIPS64MOVVaddr) v.Aux = symToAux(sym) v.AddArg(base) return true } return false } func rewriteValueMIPS64_OpLsh16x16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh16x16 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt16to64 y))) (SLLV x (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh16x32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh16x32 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt32to64 y))) (SLLV x (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh16x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh16x64 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) y)) (SLLV x y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v1.AddArg2(v2, y) v0.AddArg(v1) v3 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v3.AddArg2(x, y) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpLsh16x8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh16x8 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt8to64 y))) (SLLV x (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh32x16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh32x16 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt16to64 y))) (SLLV x (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh32x32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh32x32 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt32to64 y))) (SLLV x (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh32x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh32x64 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) y)) (SLLV x y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v1.AddArg2(v2, y) v0.AddArg(v1) v3 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v3.AddArg2(x, y) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpLsh32x8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh32x8 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt8to64 y))) (SLLV x (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh64x16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh64x16 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt16to64 y))) (SLLV x (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh64x32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh64x32 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt32to64 y))) (SLLV x (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh64x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh64x64 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) y)) (SLLV x y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v1.AddArg2(v2, y) v0.AddArg(v1) v3 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v3.AddArg2(x, y) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpLsh64x8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh64x8 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt8to64 y))) (SLLV x (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh8x16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh8x16 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt16to64 y))) (SLLV x (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh8x32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh8x32 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt32to64 y))) (SLLV x (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpLsh8x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh8x64 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) y)) (SLLV x y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v1.AddArg2(v2, y) v0.AddArg(v1) v3 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v3.AddArg2(x, y) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpLsh8x8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Lsh8x8 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt8to64 y))) (SLLV x (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SLLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpMIPS64ADDV(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (ADDV x (MOVVconst [c])) // cond: is32Bit(c) && !t.IsPtr() // result: (ADDVconst [c] x) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpMIPS64MOVVconst { continue } t := v_1.Type c := auxIntToInt64(v_1.AuxInt) if !(is32Bit(c) && !t.IsPtr()) { continue } v.reset(OpMIPS64ADDVconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } // match: (ADDV x (NEGV y)) // result: (SUBV x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpMIPS64NEGV { continue } y := v_1.Args[0] v.reset(OpMIPS64SUBV) v.AddArg2(x, y) return true } break } return false } func rewriteValueMIPS64_OpMIPS64ADDVconst(v *Value) bool { v_0 := v.Args[0] // match: (ADDVconst [off1] (MOVVaddr [off2] {sym} ptr)) // cond: is32Bit(off1+int64(off2)) // result: (MOVVaddr [int32(off1)+int32(off2)] {sym} ptr) for { off1 := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym := auxToSym(v_0.Aux) ptr := v_0.Args[0] if !(is32Bit(off1 + int64(off2))) { break } v.reset(OpMIPS64MOVVaddr) v.AuxInt = int32ToAuxInt(int32(off1) + int32(off2)) v.Aux = symToAux(sym) v.AddArg(ptr) return true } // match: (ADDVconst [0] x) // result: x for { if auxIntToInt64(v.AuxInt) != 0 { break } x := v_0 v.copyOf(x) return true } // match: (ADDVconst [c] (MOVVconst [d])) // result: (MOVVconst [c+d]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(c + d) return true } // match: (ADDVconst [c] (ADDVconst [d] x)) // cond: is32Bit(c+d) // result: (ADDVconst [c+d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64ADDVconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(is32Bit(c + d)) { break } v.reset(OpMIPS64ADDVconst) v.AuxInt = int64ToAuxInt(c + d) v.AddArg(x) return true } // match: (ADDVconst [c] (SUBVconst [d] x)) // cond: is32Bit(c-d) // result: (ADDVconst [c-d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64SUBVconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(is32Bit(c - d)) { break } v.reset(OpMIPS64ADDVconst) v.AuxInt = int64ToAuxInt(c - d) v.AddArg(x) return true } return false } func rewriteValueMIPS64_OpMIPS64AND(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (AND x (MOVVconst [c])) // cond: is32Bit(c) // result: (ANDconst [c] x) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpMIPS64MOVVconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(is32Bit(c)) { continue } v.reset(OpMIPS64ANDconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } // match: (AND x x) // result: x for { x := v_0 if x != v_1 { break } v.copyOf(x) return true } return false } func rewriteValueMIPS64_OpMIPS64ANDconst(v *Value) bool { v_0 := v.Args[0] // match: (ANDconst [0] _) // result: (MOVVconst [0]) for { if auxIntToInt64(v.AuxInt) != 0 { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (ANDconst [-1] x) // result: x for { if auxIntToInt64(v.AuxInt) != -1 { break } x := v_0 v.copyOf(x) return true } // match: (ANDconst [c] (MOVVconst [d])) // result: (MOVVconst [c&d]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(c & d) return true } // match: (ANDconst [c] (ANDconst [d] x)) // result: (ANDconst [c&d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64ANDconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpMIPS64ANDconst) v.AuxInt = int64ToAuxInt(c & d) v.AddArg(x) return true } return false } func rewriteValueMIPS64_OpMIPS64LoweredAtomicAdd32(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (LoweredAtomicAdd32 ptr (MOVVconst [c]) mem) // cond: is32Bit(c) // result: (LoweredAtomicAddconst32 [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpMIPS64LoweredAtomicAddconst32) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64LoweredAtomicAdd64(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (LoweredAtomicAdd64 ptr (MOVVconst [c]) mem) // cond: is32Bit(c) // result: (LoweredAtomicAddconst64 [c] ptr mem) for { ptr := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpMIPS64LoweredAtomicAddconst64) v.AuxInt = int64ToAuxInt(c) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64LoweredAtomicStore32(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (LoweredAtomicStore32 ptr (MOVVconst [0]) mem) // result: (LoweredAtomicStorezero32 ptr mem) for { ptr := v_0 if v_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpMIPS64LoweredAtomicStorezero32) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64LoweredAtomicStore64(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (LoweredAtomicStore64 ptr (MOVVconst [0]) mem) // result: (LoweredAtomicStorezero64 ptr mem) for { ptr := v_0 if v_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpMIPS64LoweredAtomicStorezero64) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVBUload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVBUload [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVBUload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVBUload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVBUload [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVBUload [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVBUload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVBUreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVBUreg x:(MOVBUload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVBUreg x:(MOVBUreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVBUreg (MOVVconst [c])) // result: (MOVVconst [int64(uint8(c))]) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(uint8(c))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVBload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVBload [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVBload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVBload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVBload [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVBload [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVBload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVBload [off] {sym} (SB) _) // cond: symIsRO(sym) // result: (MOVVconst [int64(read8(sym, int64(off)))]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpSB || !(symIsRO(sym)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(read8(sym, int64(off)))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVBreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVBreg x:(MOVBload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVBreg x:(MOVBreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVBreg (MOVVconst [c])) // result: (MOVVconst [int64(int8(c))]) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(int8(c))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVBstore(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVBstore [off1] {sym} (ADDVconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVBstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVBstore [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVBstore [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } // match: (MOVBstore [off] {sym} ptr (MOVVconst [0]) mem) // result: (MOVBstorezero [off] {sym} ptr mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpMIPS64MOVBstorezero) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVBstore [off] {sym} ptr (MOVBreg x) mem) // result: (MOVBstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVBreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } // match: (MOVBstore [off] {sym} ptr (MOVBUreg x) mem) // result: (MOVBstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVBUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } // match: (MOVBstore [off] {sym} ptr (MOVHreg x) mem) // result: (MOVBstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVHreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } // match: (MOVBstore [off] {sym} ptr (MOVHUreg x) mem) // result: (MOVBstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVHUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } // match: (MOVBstore [off] {sym} ptr (MOVWreg x) mem) // result: (MOVBstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVWreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } // match: (MOVBstore [off] {sym} ptr (MOVWUreg x) mem) // result: (MOVBstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVWUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVBstorezero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVBstorezero [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVBstorezero [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVBstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVBstorezero [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVBstorezero [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVBstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVDload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVDload [off] {sym} ptr (MOVVstore [off] {sym} ptr val _)) // result: (MOVVgpfp val) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVVstore || auxIntToInt32(v_1.AuxInt) != off || auxToSym(v_1.Aux) != sym { break } val := v_1.Args[1] if ptr != v_1.Args[0] { break } v.reset(OpMIPS64MOVVgpfp) v.AddArg(val) return true } // match: (MOVDload [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVDload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVDload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVDload [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVDload [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVDload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVDstore(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVDstore [off] {sym} ptr (MOVVgpfp val) mem) // result: (MOVVstore [off] {sym} ptr val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVVgpfp { break } val := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVVstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVDstore [off1] {sym} (ADDVconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVDstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVDstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVDstore [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVDstore [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVDstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVFload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVFload [off] {sym} ptr (MOVWstore [off] {sym} ptr val _)) // result: (MOVWgpfp val) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVWstore || auxIntToInt32(v_1.AuxInt) != off || auxToSym(v_1.Aux) != sym { break } val := v_1.Args[1] if ptr != v_1.Args[0] { break } v.reset(OpMIPS64MOVWgpfp) v.AddArg(val) return true } // match: (MOVFload [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVFload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVFload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVFload [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVFload [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVFload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVFstore(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVFstore [off] {sym} ptr (MOVWgpfp val) mem) // result: (MOVWstore [off] {sym} ptr val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVWgpfp { break } val := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVWstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVFstore [off1] {sym} (ADDVconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVFstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVFstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVFstore [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVFstore [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVFstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVHUload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVHUload [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVHUload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVHUload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVHUload [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVHUload [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVHUload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVHUreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVHUreg x:(MOVBUload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHUreg x:(MOVHUload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVHUload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHUreg x:(MOVBUreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHUreg x:(MOVHUreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVHUreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHUreg (MOVVconst [c])) // result: (MOVVconst [int64(uint16(c))]) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(uint16(c))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVHload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVHload [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVHload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVHload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVHload [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVHload [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVHload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVHload [off] {sym} (SB) _) // cond: symIsRO(sym) // result: (MOVVconst [int64(read16(sym, int64(off), config.ctxt.Arch.ByteOrder))]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpSB || !(symIsRO(sym)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(read16(sym, int64(off), config.ctxt.Arch.ByteOrder))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVHreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVHreg x:(MOVBload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHreg x:(MOVBUload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHreg x:(MOVHload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVHload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHreg x:(MOVBreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHreg x:(MOVBUreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHreg x:(MOVHreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVHreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVHreg (MOVVconst [c])) // result: (MOVVconst [int64(int16(c))]) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(int16(c))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVHstore(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVHstore [off1] {sym} (ADDVconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVHstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVHstore [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVHstore [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } // match: (MOVHstore [off] {sym} ptr (MOVVconst [0]) mem) // result: (MOVHstorezero [off] {sym} ptr mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpMIPS64MOVHstorezero) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVHstore [off] {sym} ptr (MOVHreg x) mem) // result: (MOVHstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVHreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } // match: (MOVHstore [off] {sym} ptr (MOVHUreg x) mem) // result: (MOVHstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVHUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } // match: (MOVHstore [off] {sym} ptr (MOVWreg x) mem) // result: (MOVHstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVWreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } // match: (MOVHstore [off] {sym} ptr (MOVWUreg x) mem) // result: (MOVHstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVWUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVHstorezero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVHstorezero [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVHstorezero [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVHstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVHstorezero [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVHstorezero [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVHstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVVload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVVload [off] {sym} ptr (MOVDstore [off] {sym} ptr val _)) // result: (MOVVfpgp val) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVDstore || auxIntToInt32(v_1.AuxInt) != off || auxToSym(v_1.Aux) != sym { break } val := v_1.Args[1] if ptr != v_1.Args[0] { break } v.reset(OpMIPS64MOVVfpgp) v.AddArg(val) return true } // match: (MOVVload [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVVload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVVload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVVload [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVVload [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVVload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVVload [off] {sym} (SB) _) // cond: symIsRO(sym) // result: (MOVVconst [int64(read64(sym, int64(off), config.ctxt.Arch.ByteOrder))]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpSB || !(symIsRO(sym)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(read64(sym, int64(off), config.ctxt.Arch.ByteOrder))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVVnop(v *Value) bool { v_0 := v.Args[0] // match: (MOVVnop (MOVVconst [c])) // result: (MOVVconst [c]) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(c) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVVreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVVreg x) // cond: x.Uses == 1 // result: (MOVVnop x) for { x := v_0 if !(x.Uses == 1) { break } v.reset(OpMIPS64MOVVnop) v.AddArg(x) return true } // match: (MOVVreg (MOVVconst [c])) // result: (MOVVconst [c]) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(c) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVVstore(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVVstore [off] {sym} ptr (MOVVfpgp val) mem) // result: (MOVDstore [off] {sym} ptr val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVVfpgp { break } val := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVDstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVVstore [off1] {sym} (ADDVconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVVstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVVstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVVstore [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVVstore [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVVstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } // match: (MOVVstore [off] {sym} ptr (MOVVconst [0]) mem) // result: (MOVVstorezero [off] {sym} ptr mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpMIPS64MOVVstorezero) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVVstorezero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVVstorezero [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVVstorezero [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVVstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVVstorezero [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVVstorezero [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVVstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVWUload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (MOVWUload [off] {sym} ptr (MOVFstore [off] {sym} ptr val _)) // result: (ZeroExt32to64 (MOVWfpgp val)) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVFstore || auxIntToInt32(v_1.AuxInt) != off || auxToSym(v_1.Aux) != sym { break } val := v_1.Args[1] if ptr != v_1.Args[0] { break } v.reset(OpZeroExt32to64) v0 := b.NewValue0(v_1.Pos, OpMIPS64MOVWfpgp, typ.Float32) v0.AddArg(val) v.AddArg(v0) return true } // match: (MOVWUload [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVWUload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVWUload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVWUload [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVWUload [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVWUload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVWUreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVWUreg x:(MOVBUload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWUreg x:(MOVHUload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVHUload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWUreg x:(MOVWUload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVWUload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWUreg x:(MOVBUreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWUreg x:(MOVHUreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVHUreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWUreg x:(MOVWUreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVWUreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWUreg (MOVVconst [c])) // result: (MOVVconst [int64(uint32(c))]) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(uint32(c))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVWload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVWload [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVWload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVWload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVWload [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVWload [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVWload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVWload [off] {sym} (SB) _) // cond: symIsRO(sym) // result: (MOVVconst [int64(read32(sym, int64(off), config.ctxt.Arch.ByteOrder))]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpSB || !(symIsRO(sym)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(read32(sym, int64(off), config.ctxt.Arch.ByteOrder))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVWreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVWreg x:(MOVBload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWreg x:(MOVBUload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWreg x:(MOVHload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVHload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWreg x:(MOVHUload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVHUload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWreg x:(MOVWload _ _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVWload { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWreg x:(MOVBreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWreg x:(MOVBUreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVBUreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWreg x:(MOVHreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVHreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWreg x:(MOVWreg _)) // result: (MOVVreg x) for { x := v_0 if x.Op != OpMIPS64MOVWreg { break } v.reset(OpMIPS64MOVVreg) v.AddArg(x) return true } // match: (MOVWreg (MOVVconst [c])) // result: (MOVVconst [int64(int32(c))]) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(int32(c))) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVWstore(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVWstore [off] {sym} ptr (MOVWfpgp val) mem) // result: (MOVFstore [off] {sym} ptr val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVWfpgp { break } val := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVFstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVWstore [off1] {sym} (ADDVconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVWstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVWstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVWstore [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVWstore [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] val := v_1 mem := v_2 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVWstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } // match: (MOVWstore [off] {sym} ptr (MOVVconst [0]) mem) // result: (MOVWstorezero [off] {sym} ptr mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpMIPS64MOVWstorezero) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVWstore [off] {sym} ptr (MOVWreg x) mem) // result: (MOVWstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVWreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVWstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } // match: (MOVWstore [off] {sym} ptr (MOVWUreg x) mem) // result: (MOVWstore [off] {sym} ptr x mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpMIPS64MOVWUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpMIPS64MOVWstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64MOVWstorezero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVWstorezero [off1] {sym} (ADDVconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVWstorezero [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpMIPS64ADDVconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] mem := v_1 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVWstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVWstorezero [off1] {sym1} (MOVVaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) // result: (MOVWstorezero [off1+int32(off2)] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpMIPS64MOVVaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] mem := v_1 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared)) { break } v.reset(OpMIPS64MOVWstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueMIPS64_OpMIPS64NEGV(v *Value) bool { v_0 := v.Args[0] // match: (NEGV (MOVVconst [c])) // result: (MOVVconst [-c]) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(-c) return true } return false } func rewriteValueMIPS64_OpMIPS64NOR(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (NOR x (MOVVconst [c])) // cond: is32Bit(c) // result: (NORconst [c] x) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpMIPS64MOVVconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(is32Bit(c)) { continue } v.reset(OpMIPS64NORconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } return false } func rewriteValueMIPS64_OpMIPS64NORconst(v *Value) bool { v_0 := v.Args[0] // match: (NORconst [c] (MOVVconst [d])) // result: (MOVVconst [^(c|d)]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(^(c | d)) return true } return false } func rewriteValueMIPS64_OpMIPS64OR(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (OR x (MOVVconst [c])) // cond: is32Bit(c) // result: (ORconst [c] x) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpMIPS64MOVVconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(is32Bit(c)) { continue } v.reset(OpMIPS64ORconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } // match: (OR x x) // result: x for { x := v_0 if x != v_1 { break } v.copyOf(x) return true } return false } func rewriteValueMIPS64_OpMIPS64ORconst(v *Value) bool { v_0 := v.Args[0] // match: (ORconst [0] x) // result: x for { if auxIntToInt64(v.AuxInt) != 0 { break } x := v_0 v.copyOf(x) return true } // match: (ORconst [-1] _) // result: (MOVVconst [-1]) for { if auxIntToInt64(v.AuxInt) != -1 { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(-1) return true } // match: (ORconst [c] (MOVVconst [d])) // result: (MOVVconst [c|d]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(c | d) return true } // match: (ORconst [c] (ORconst [d] x)) // cond: is32Bit(c|d) // result: (ORconst [c|d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64ORconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(is32Bit(c | d)) { break } v.reset(OpMIPS64ORconst) v.AuxInt = int64ToAuxInt(c | d) v.AddArg(x) return true } return false } func rewriteValueMIPS64_OpMIPS64SGT(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (SGT (MOVVconst [c]) x) // cond: is32Bit(c) // result: (SGTconst [c] x) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 if !(is32Bit(c)) { break } v.reset(OpMIPS64SGTconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } // match: (SGT x x) // result: (MOVVconst [0]) for { x := v_0 if x != v_1 { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueMIPS64_OpMIPS64SGTU(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (SGTU (MOVVconst [c]) x) // cond: is32Bit(c) // result: (SGTUconst [c] x) for { if v_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 if !(is32Bit(c)) { break } v.reset(OpMIPS64SGTUconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } // match: (SGTU x x) // result: (MOVVconst [0]) for { x := v_0 if x != v_1 { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueMIPS64_OpMIPS64SGTUconst(v *Value) bool { v_0 := v.Args[0] // match: (SGTUconst [c] (MOVVconst [d])) // cond: uint64(c)>uint64(d) // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) if !(uint64(c) > uint64(d)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTUconst [c] (MOVVconst [d])) // cond: uint64(c)<=uint64(d) // result: (MOVVconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) if !(uint64(c) <= uint64(d)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SGTUconst [c] (MOVBUreg _)) // cond: 0xff < uint64(c) // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVBUreg || !(0xff < uint64(c)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTUconst [c] (MOVHUreg _)) // cond: 0xffff < uint64(c) // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVHUreg || !(0xffff < uint64(c)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTUconst [c] (ANDconst [m] _)) // cond: uint64(m) < uint64(c) // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64ANDconst { break } m := auxIntToInt64(v_0.AuxInt) if !(uint64(m) < uint64(c)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTUconst [c] (SRLVconst _ [d])) // cond: 0 < d && d <= 63 && 0xffffffffffffffff>>uint64(d) < uint64(c) // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64SRLVconst { break } d := auxIntToInt64(v_0.AuxInt) if !(0 < d && d <= 63 && 0xffffffffffffffff>>uint64(d) < uint64(c)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } return false } func rewriteValueMIPS64_OpMIPS64SGTconst(v *Value) bool { v_0 := v.Args[0] // match: (SGTconst [c] (MOVVconst [d])) // cond: c>d // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) if !(c > d) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTconst [c] (MOVVconst [d])) // cond: c<=d // result: (MOVVconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) if !(c <= d) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SGTconst [c] (MOVBreg _)) // cond: 0x7f < c // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVBreg || !(0x7f < c) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTconst [c] (MOVBreg _)) // cond: c <= -0x80 // result: (MOVVconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVBreg || !(c <= -0x80) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SGTconst [c] (MOVBUreg _)) // cond: 0xff < c // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVBUreg || !(0xff < c) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTconst [c] (MOVBUreg _)) // cond: c < 0 // result: (MOVVconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVBUreg || !(c < 0) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SGTconst [c] (MOVHreg _)) // cond: 0x7fff < c // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVHreg || !(0x7fff < c) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTconst [c] (MOVHreg _)) // cond: c <= -0x8000 // result: (MOVVconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVHreg || !(c <= -0x8000) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SGTconst [c] (MOVHUreg _)) // cond: 0xffff < c // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVHUreg || !(0xffff < c) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTconst [c] (MOVHUreg _)) // cond: c < 0 // result: (MOVVconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVHUreg || !(c < 0) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SGTconst [c] (MOVWUreg _)) // cond: c < 0 // result: (MOVVconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVWUreg || !(c < 0) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SGTconst [c] (ANDconst [m] _)) // cond: 0 <= m && m < c // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64ANDconst { break } m := auxIntToInt64(v_0.AuxInt) if !(0 <= m && m < c) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } // match: (SGTconst [c] (SRLVconst _ [d])) // cond: 0 <= c && 0 < d && d <= 63 && 0xffffffffffffffff>>uint64(d) < uint64(c) // result: (MOVVconst [1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64SRLVconst { break } d := auxIntToInt64(v_0.AuxInt) if !(0 <= c && 0 < d && d <= 63 && 0xffffffffffffffff>>uint64(d) < uint64(c)) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(1) return true } return false } func rewriteValueMIPS64_OpMIPS64SLLV(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (SLLV _ (MOVVconst [c])) // cond: uint64(c)>=64 // result: (MOVVconst [0]) for { if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) if !(uint64(c) >= 64) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SLLV x (MOVVconst [c])) // result: (SLLVconst x [c]) for { x := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpMIPS64SLLVconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } return false } func rewriteValueMIPS64_OpMIPS64SLLVconst(v *Value) bool { v_0 := v.Args[0] // match: (SLLVconst [c] (MOVVconst [d])) // result: (MOVVconst [d<=64 // result: (SRAVconst x [63]) for { x := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) if !(uint64(c) >= 64) { break } v.reset(OpMIPS64SRAVconst) v.AuxInt = int64ToAuxInt(63) v.AddArg(x) return true } // match: (SRAV x (MOVVconst [c])) // result: (SRAVconst x [c]) for { x := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpMIPS64SRAVconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } return false } func rewriteValueMIPS64_OpMIPS64SRAVconst(v *Value) bool { v_0 := v.Args[0] // match: (SRAVconst [c] (MOVVconst [d])) // result: (MOVVconst [d>>uint64(c)]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(d >> uint64(c)) return true } return false } func rewriteValueMIPS64_OpMIPS64SRLV(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (SRLV _ (MOVVconst [c])) // cond: uint64(c)>=64 // result: (MOVVconst [0]) for { if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) if !(uint64(c) >= 64) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SRLV x (MOVVconst [c])) // result: (SRLVconst x [c]) for { x := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpMIPS64SRLVconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } return false } func rewriteValueMIPS64_OpMIPS64SRLVconst(v *Value) bool { v_0 := v.Args[0] // match: (SRLVconst [c] (MOVVconst [d])) // result: (MOVVconst [int64(uint64(d)>>uint64(c))]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(uint64(d) >> uint64(c))) return true } return false } func rewriteValueMIPS64_OpMIPS64SUBV(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (SUBV x (MOVVconst [c])) // cond: is32Bit(c) // result: (SUBVconst [c] x) for { x := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) if !(is32Bit(c)) { break } v.reset(OpMIPS64SUBVconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } // match: (SUBV x x) // result: (MOVVconst [0]) for { x := v_0 if x != v_1 { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SUBV (MOVVconst [0]) x) // result: (NEGV x) for { if v_0.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_1 v.reset(OpMIPS64NEGV) v.AddArg(x) return true } return false } func rewriteValueMIPS64_OpMIPS64SUBVconst(v *Value) bool { v_0 := v.Args[0] // match: (SUBVconst [0] x) // result: x for { if auxIntToInt64(v.AuxInt) != 0 { break } x := v_0 v.copyOf(x) return true } // match: (SUBVconst [c] (MOVVconst [d])) // result: (MOVVconst [d-c]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(d - c) return true } // match: (SUBVconst [c] (SUBVconst [d] x)) // cond: is32Bit(-c-d) // result: (ADDVconst [-c-d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64SUBVconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(is32Bit(-c - d)) { break } v.reset(OpMIPS64ADDVconst) v.AuxInt = int64ToAuxInt(-c - d) v.AddArg(x) return true } // match: (SUBVconst [c] (ADDVconst [d] x)) // cond: is32Bit(-c+d) // result: (ADDVconst [-c+d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64ADDVconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(is32Bit(-c + d)) { break } v.reset(OpMIPS64ADDVconst) v.AuxInt = int64ToAuxInt(-c + d) v.AddArg(x) return true } return false } func rewriteValueMIPS64_OpMIPS64XOR(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (XOR x (MOVVconst [c])) // cond: is32Bit(c) // result: (XORconst [c] x) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpMIPS64MOVVconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(is32Bit(c)) { continue } v.reset(OpMIPS64XORconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } // match: (XOR x x) // result: (MOVVconst [0]) for { x := v_0 if x != v_1 { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueMIPS64_OpMIPS64XORconst(v *Value) bool { v_0 := v.Args[0] // match: (XORconst [0] x) // result: x for { if auxIntToInt64(v.AuxInt) != 0 { break } x := v_0 v.copyOf(x) return true } // match: (XORconst [-1] x) // result: (NORconst [0] x) for { if auxIntToInt64(v.AuxInt) != -1 { break } x := v_0 v.reset(OpMIPS64NORconst) v.AuxInt = int64ToAuxInt(0) v.AddArg(x) return true } // match: (XORconst [c] (MOVVconst [d])) // result: (MOVVconst [c^d]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(c ^ d) return true } // match: (XORconst [c] (XORconst [d] x)) // cond: is32Bit(c^d) // result: (XORconst [c^d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpMIPS64XORconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(is32Bit(c ^ d)) { break } v.reset(OpMIPS64XORconst) v.AuxInt = int64ToAuxInt(c ^ d) v.AddArg(x) return true } return false } func rewriteValueMIPS64_OpMod16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mod16 x y) // result: (Select0 (DIVV (SignExt16to64 x) (SignExt16to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64DIVV, types.NewTuple(typ.Int64, typ.Int64)) v1 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMod16u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mod16u x y) // result: (Select0 (DIVVU (ZeroExt16to64 x) (ZeroExt16to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64DIVVU, types.NewTuple(typ.UInt64, typ.UInt64)) v1 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMod32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mod32 x y) // result: (Select0 (DIVV (SignExt32to64 x) (SignExt32to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64DIVV, types.NewTuple(typ.Int64, typ.Int64)) v1 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMod32u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mod32u x y) // result: (Select0 (DIVVU (ZeroExt32to64 x) (ZeroExt32to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64DIVVU, types.NewTuple(typ.UInt64, typ.UInt64)) v1 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMod64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mod64 x y) // result: (Select0 (DIVV x y)) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64DIVV, types.NewTuple(typ.Int64, typ.Int64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMod64u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mod64u x y) // result: (Select0 (DIVVU x y)) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64DIVVU, types.NewTuple(typ.UInt64, typ.UInt64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMod8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mod8 x y) // result: (Select0 (DIVV (SignExt8to64 x) (SignExt8to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64DIVV, types.NewTuple(typ.Int64, typ.Int64)) v1 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMod8u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mod8u x y) // result: (Select0 (DIVVU (ZeroExt8to64 x) (ZeroExt8to64 y))) for { x := v_0 y := v_1 v.reset(OpSelect0) v0 := b.NewValue0(v.Pos, OpMIPS64DIVVU, types.NewTuple(typ.UInt64, typ.UInt64)) v1 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMove(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (Move [0] _ _ mem) // result: mem for { if auxIntToInt64(v.AuxInt) != 0 { break } mem := v_2 v.copyOf(mem) return true } // match: (Move [1] dst src mem) // result: (MOVBstore dst (MOVBload src mem) mem) for { if auxIntToInt64(v.AuxInt) != 1 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpMIPS64MOVBstore) v0 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v0.AddArg2(src, mem) v.AddArg3(dst, v0, mem) return true } // match: (Move [2] {t} dst src mem) // cond: t.Alignment()%2 == 0 // result: (MOVHstore dst (MOVHload src mem) mem) for { if auxIntToInt64(v.AuxInt) != 2 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%2 == 0) { break } v.reset(OpMIPS64MOVHstore) v0 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v0.AddArg2(src, mem) v.AddArg3(dst, v0, mem) return true } // match: (Move [2] dst src mem) // result: (MOVBstore [1] dst (MOVBload [1] src mem) (MOVBstore dst (MOVBload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 2 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(1) v0 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v0.AuxInt = int32ToAuxInt(1) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [4] {t} dst src mem) // cond: t.Alignment()%4 == 0 // result: (MOVWstore dst (MOVWload src mem) mem) for { if auxIntToInt64(v.AuxInt) != 4 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%4 == 0) { break } v.reset(OpMIPS64MOVWstore) v0 := b.NewValue0(v.Pos, OpMIPS64MOVWload, typ.Int32) v0.AddArg2(src, mem) v.AddArg3(dst, v0, mem) return true } // match: (Move [4] {t} dst src mem) // cond: t.Alignment()%2 == 0 // result: (MOVHstore [2] dst (MOVHload [2] src mem) (MOVHstore dst (MOVHload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 4 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%2 == 0) { break } v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(2) v0 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v0.AuxInt = int32ToAuxInt(2) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [4] dst src mem) // result: (MOVBstore [3] dst (MOVBload [3] src mem) (MOVBstore [2] dst (MOVBload [2] src mem) (MOVBstore [1] dst (MOVBload [1] src mem) (MOVBstore dst (MOVBload src mem) mem)))) for { if auxIntToInt64(v.AuxInt) != 4 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(3) v0 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v0.AuxInt = int32ToAuxInt(3) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(2) v2 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v2.AuxInt = int32ToAuxInt(2) v2.AddArg2(src, mem) v3 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v3.AuxInt = int32ToAuxInt(1) v4 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v4.AuxInt = int32ToAuxInt(1) v4.AddArg2(src, mem) v5 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v6 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v6.AddArg2(src, mem) v5.AddArg3(dst, v6, mem) v3.AddArg3(dst, v4, v5) v1.AddArg3(dst, v2, v3) v.AddArg3(dst, v0, v1) return true } // match: (Move [8] {t} dst src mem) // cond: t.Alignment()%8 == 0 // result: (MOVVstore dst (MOVVload src mem) mem) for { if auxIntToInt64(v.AuxInt) != 8 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%8 == 0) { break } v.reset(OpMIPS64MOVVstore) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVload, typ.UInt64) v0.AddArg2(src, mem) v.AddArg3(dst, v0, mem) return true } // match: (Move [8] {t} dst src mem) // cond: t.Alignment()%4 == 0 // result: (MOVWstore [4] dst (MOVWload [4] src mem) (MOVWstore dst (MOVWload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 8 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%4 == 0) { break } v.reset(OpMIPS64MOVWstore) v.AuxInt = int32ToAuxInt(4) v0 := b.NewValue0(v.Pos, OpMIPS64MOVWload, typ.Int32) v0.AuxInt = int32ToAuxInt(4) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVWstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpMIPS64MOVWload, typ.Int32) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [8] {t} dst src mem) // cond: t.Alignment()%2 == 0 // result: (MOVHstore [6] dst (MOVHload [6] src mem) (MOVHstore [4] dst (MOVHload [4] src mem) (MOVHstore [2] dst (MOVHload [2] src mem) (MOVHstore dst (MOVHload src mem) mem)))) for { if auxIntToInt64(v.AuxInt) != 8 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%2 == 0) { break } v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(6) v0 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v0.AuxInt = int32ToAuxInt(6) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(4) v2 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v2.AuxInt = int32ToAuxInt(4) v2.AddArg2(src, mem) v3 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v3.AuxInt = int32ToAuxInt(2) v4 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v4.AuxInt = int32ToAuxInt(2) v4.AddArg2(src, mem) v5 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v6 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v6.AddArg2(src, mem) v5.AddArg3(dst, v6, mem) v3.AddArg3(dst, v4, v5) v1.AddArg3(dst, v2, v3) v.AddArg3(dst, v0, v1) return true } // match: (Move [3] dst src mem) // result: (MOVBstore [2] dst (MOVBload [2] src mem) (MOVBstore [1] dst (MOVBload [1] src mem) (MOVBstore dst (MOVBload src mem) mem))) for { if auxIntToInt64(v.AuxInt) != 3 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(2) v0 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v0.AuxInt = int32ToAuxInt(2) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(1) v2 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v2.AuxInt = int32ToAuxInt(1) v2.AddArg2(src, mem) v3 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v4 := b.NewValue0(v.Pos, OpMIPS64MOVBload, typ.Int8) v4.AddArg2(src, mem) v3.AddArg3(dst, v4, mem) v1.AddArg3(dst, v2, v3) v.AddArg3(dst, v0, v1) return true } // match: (Move [6] {t} dst src mem) // cond: t.Alignment()%2 == 0 // result: (MOVHstore [4] dst (MOVHload [4] src mem) (MOVHstore [2] dst (MOVHload [2] src mem) (MOVHstore dst (MOVHload src mem) mem))) for { if auxIntToInt64(v.AuxInt) != 6 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%2 == 0) { break } v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(4) v0 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v0.AuxInt = int32ToAuxInt(4) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(2) v2 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v2.AuxInt = int32ToAuxInt(2) v2.AddArg2(src, mem) v3 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v4 := b.NewValue0(v.Pos, OpMIPS64MOVHload, typ.Int16) v4.AddArg2(src, mem) v3.AddArg3(dst, v4, mem) v1.AddArg3(dst, v2, v3) v.AddArg3(dst, v0, v1) return true } // match: (Move [12] {t} dst src mem) // cond: t.Alignment()%4 == 0 // result: (MOVWstore [8] dst (MOVWload [8] src mem) (MOVWstore [4] dst (MOVWload [4] src mem) (MOVWstore dst (MOVWload src mem) mem))) for { if auxIntToInt64(v.AuxInt) != 12 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%4 == 0) { break } v.reset(OpMIPS64MOVWstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpMIPS64MOVWload, typ.Int32) v0.AuxInt = int32ToAuxInt(8) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVWstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(4) v2 := b.NewValue0(v.Pos, OpMIPS64MOVWload, typ.Int32) v2.AuxInt = int32ToAuxInt(4) v2.AddArg2(src, mem) v3 := b.NewValue0(v.Pos, OpMIPS64MOVWstore, types.TypeMem) v4 := b.NewValue0(v.Pos, OpMIPS64MOVWload, typ.Int32) v4.AddArg2(src, mem) v3.AddArg3(dst, v4, mem) v1.AddArg3(dst, v2, v3) v.AddArg3(dst, v0, v1) return true } // match: (Move [16] {t} dst src mem) // cond: t.Alignment()%8 == 0 // result: (MOVVstore [8] dst (MOVVload [8] src mem) (MOVVstore dst (MOVVload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 16 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%8 == 0) { break } v.reset(OpMIPS64MOVVstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVload, typ.UInt64) v0.AuxInt = int32ToAuxInt(8) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVload, typ.UInt64) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [24] {t} dst src mem) // cond: t.Alignment()%8 == 0 // result: (MOVVstore [16] dst (MOVVload [16] src mem) (MOVVstore [8] dst (MOVVload [8] src mem) (MOVVstore dst (MOVVload src mem) mem))) for { if auxIntToInt64(v.AuxInt) != 24 { break } t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(t.Alignment()%8 == 0) { break } v.reset(OpMIPS64MOVVstore) v.AuxInt = int32ToAuxInt(16) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVload, typ.UInt64) v0.AuxInt = int32ToAuxInt(16) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(8) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVload, typ.UInt64) v2.AuxInt = int32ToAuxInt(8) v2.AddArg2(src, mem) v3 := b.NewValue0(v.Pos, OpMIPS64MOVVstore, types.TypeMem) v4 := b.NewValue0(v.Pos, OpMIPS64MOVVload, typ.UInt64) v4.AddArg2(src, mem) v3.AddArg3(dst, v4, mem) v1.AddArg3(dst, v2, v3) v.AddArg3(dst, v0, v1) return true } // match: (Move [s] {t} dst src mem) // cond: s%8 == 0 && s >= 24 && s <= 8*128 && t.Alignment()%8 == 0 && !config.noDuffDevice && logLargeCopy(v, s) // result: (DUFFCOPY [16 * (128 - s/8)] dst src mem) for { s := auxIntToInt64(v.AuxInt) t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(s%8 == 0 && s >= 24 && s <= 8*128 && t.Alignment()%8 == 0 && !config.noDuffDevice && logLargeCopy(v, s)) { break } v.reset(OpMIPS64DUFFCOPY) v.AuxInt = int64ToAuxInt(16 * (128 - s/8)) v.AddArg3(dst, src, mem) return true } // match: (Move [s] {t} dst src mem) // cond: s > 24 && logLargeCopy(v, s) || t.Alignment()%8 != 0 // result: (LoweredMove [t.Alignment()] dst src (ADDVconst src [s-moveSize(t.Alignment(), config)]) mem) for { s := auxIntToInt64(v.AuxInt) t := auxToType(v.Aux) dst := v_0 src := v_1 mem := v_2 if !(s > 24 && logLargeCopy(v, s) || t.Alignment()%8 != 0) { break } v.reset(OpMIPS64LoweredMove) v.AuxInt = int64ToAuxInt(t.Alignment()) v0 := b.NewValue0(v.Pos, OpMIPS64ADDVconst, src.Type) v0.AuxInt = int64ToAuxInt(s - moveSize(t.Alignment(), config)) v0.AddArg(src) v.AddArg4(dst, src, v0, mem) return true } return false } func rewriteValueMIPS64_OpMul16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mul16 x y) // result: (Select1 (MULVU x y)) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64MULVU, types.NewTuple(typ.UInt64, typ.UInt64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMul32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mul32 x y) // result: (Select1 (MULVU x y)) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64MULVU, types.NewTuple(typ.UInt64, typ.UInt64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMul64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mul64 x y) // result: (Select1 (MULVU x y)) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64MULVU, types.NewTuple(typ.UInt64, typ.UInt64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpMul8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Mul8 x y) // result: (Select1 (MULVU x y)) for { x := v_0 y := v_1 v.reset(OpSelect1) v0 := b.NewValue0(v.Pos, OpMIPS64MULVU, types.NewTuple(typ.UInt64, typ.UInt64)) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpNeq16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Neq16 x y) // result: (SGTU (XOR (ZeroExt16to32 x) (ZeroExt16to64 y)) (MOVVconst [0])) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v1 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v2.AddArg(y) v0.AddArg2(v1, v2) v3 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpNeq32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Neq32 x y) // result: (SGTU (XOR (ZeroExt32to64 x) (ZeroExt32to64 y)) (MOVVconst [0])) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v1 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v2.AddArg(y) v0.AddArg2(v1, v2) v3 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpNeq32F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Neq32F x y) // result: (FPFlagFalse (CMPEQF x y)) for { x := v_0 y := v_1 v.reset(OpMIPS64FPFlagFalse) v0 := b.NewValue0(v.Pos, OpMIPS64CMPEQF, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpNeq64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Neq64 x y) // result: (SGTU (XOR x y) (MOVVconst [0])) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpNeq64F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Neq64F x y) // result: (FPFlagFalse (CMPEQD x y)) for { x := v_0 y := v_1 v.reset(OpMIPS64FPFlagFalse) v0 := b.NewValue0(v.Pos, OpMIPS64CMPEQD, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpNeq8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Neq8 x y) // result: (SGTU (XOR (ZeroExt8to64 x) (ZeroExt8to64 y)) (MOVVconst [0])) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v1 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v2.AddArg(y) v0.AddArg2(v1, v2) v3 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpNeqPtr(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (NeqPtr x y) // result: (SGTU (XOR x y) (MOVVconst [0])) for { x := v_0 y := v_1 v.reset(OpMIPS64SGTU) v0 := b.NewValue0(v.Pos, OpMIPS64XOR, typ.UInt64) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpNot(v *Value) bool { v_0 := v.Args[0] // match: (Not x) // result: (XORconst [1] x) for { x := v_0 v.reset(OpMIPS64XORconst) v.AuxInt = int64ToAuxInt(1) v.AddArg(x) return true } } func rewriteValueMIPS64_OpOffPtr(v *Value) bool { v_0 := v.Args[0] // match: (OffPtr [off] ptr:(SP)) // cond: is32Bit(off) // result: (MOVVaddr [int32(off)] ptr) for { off := auxIntToInt64(v.AuxInt) ptr := v_0 if ptr.Op != OpSP || !(is32Bit(off)) { break } v.reset(OpMIPS64MOVVaddr) v.AuxInt = int32ToAuxInt(int32(off)) v.AddArg(ptr) return true } // match: (OffPtr [off] ptr) // result: (ADDVconst [off] ptr) for { off := auxIntToInt64(v.AuxInt) ptr := v_0 v.reset(OpMIPS64ADDVconst) v.AuxInt = int64ToAuxInt(off) v.AddArg(ptr) return true } } func rewriteValueMIPS64_OpPanicBounds(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (PanicBounds [kind] x y mem) // cond: boundsABI(kind) == 0 // result: (LoweredPanicBoundsA [kind] x y mem) for { kind := auxIntToInt64(v.AuxInt) x := v_0 y := v_1 mem := v_2 if !(boundsABI(kind) == 0) { break } v.reset(OpMIPS64LoweredPanicBoundsA) v.AuxInt = int64ToAuxInt(kind) v.AddArg3(x, y, mem) return true } // match: (PanicBounds [kind] x y mem) // cond: boundsABI(kind) == 1 // result: (LoweredPanicBoundsB [kind] x y mem) for { kind := auxIntToInt64(v.AuxInt) x := v_0 y := v_1 mem := v_2 if !(boundsABI(kind) == 1) { break } v.reset(OpMIPS64LoweredPanicBoundsB) v.AuxInt = int64ToAuxInt(kind) v.AddArg3(x, y, mem) return true } // match: (PanicBounds [kind] x y mem) // cond: boundsABI(kind) == 2 // result: (LoweredPanicBoundsC [kind] x y mem) for { kind := auxIntToInt64(v.AuxInt) x := v_0 y := v_1 mem := v_2 if !(boundsABI(kind) == 2) { break } v.reset(OpMIPS64LoweredPanicBoundsC) v.AuxInt = int64ToAuxInt(kind) v.AddArg3(x, y, mem) return true } return false } func rewriteValueMIPS64_OpRotateLeft16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (RotateLeft16 x (MOVVconst [c])) // result: (Or16 (Lsh16x64 x (MOVVconst [c&15])) (Rsh16Ux64 x (MOVVconst [-c&15]))) for { t := v.Type x := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpOr16) v0 := b.NewValue0(v.Pos, OpLsh16x64, t) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(c & 15) v0.AddArg2(x, v1) v2 := b.NewValue0(v.Pos, OpRsh16Ux64, t) v3 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(-c & 15) v2.AddArg2(x, v3) v.AddArg2(v0, v2) return true } return false } func rewriteValueMIPS64_OpRotateLeft32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (RotateLeft32 x (MOVVconst [c])) // result: (Or32 (Lsh32x64 x (MOVVconst [c&31])) (Rsh32Ux64 x (MOVVconst [-c&31]))) for { t := v.Type x := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpOr32) v0 := b.NewValue0(v.Pos, OpLsh32x64, t) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(c & 31) v0.AddArg2(x, v1) v2 := b.NewValue0(v.Pos, OpRsh32Ux64, t) v3 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(-c & 31) v2.AddArg2(x, v3) v.AddArg2(v0, v2) return true } return false } func rewriteValueMIPS64_OpRotateLeft64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (RotateLeft64 x (MOVVconst [c])) // result: (Or64 (Lsh64x64 x (MOVVconst [c&63])) (Rsh64Ux64 x (MOVVconst [-c&63]))) for { t := v.Type x := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpOr64) v0 := b.NewValue0(v.Pos, OpLsh64x64, t) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(c & 63) v0.AddArg2(x, v1) v2 := b.NewValue0(v.Pos, OpRsh64Ux64, t) v3 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(-c & 63) v2.AddArg2(x, v3) v.AddArg2(v0, v2) return true } return false } func rewriteValueMIPS64_OpRotateLeft8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (RotateLeft8 x (MOVVconst [c])) // result: (Or8 (Lsh8x64 x (MOVVconst [c&7])) (Rsh8Ux64 x (MOVVconst [-c&7]))) for { t := v.Type x := v_0 if v_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpOr8) v0 := b.NewValue0(v.Pos, OpLsh8x64, t) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(c & 7) v0.AddArg2(x, v1) v2 := b.NewValue0(v.Pos, OpRsh8Ux64, t) v3 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(-c & 7) v2.AddArg2(x, v3) v.AddArg2(v0, v2) return true } return false } func rewriteValueMIPS64_OpRsh16Ux16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh16Ux16 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt16to64 y))) (SRLV (ZeroExt16to64 x) (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v5 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v5.AddArg(x) v4.AddArg2(v5, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh16Ux32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh16Ux32 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt32to64 y))) (SRLV (ZeroExt16to64 x) (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v5 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v5.AddArg(x) v4.AddArg2(v5, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh16Ux64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh16Ux64 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) y)) (SRLV (ZeroExt16to64 x) y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v1.AddArg2(v2, y) v0.AddArg(v1) v3 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(x) v3.AddArg2(v4, y) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpRsh16Ux8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh16Ux8 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt8to64 y))) (SRLV (ZeroExt16to64 x) (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v5 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v5.AddArg(x) v4.AddArg2(v5, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh16x16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh16x16 x y) // result: (SRAV (SignExt16to64 x) (OR (NEGV (SGTU (ZeroExt16to64 y) (MOVVconst [63]))) (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(y) v5 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(63) v3.AddArg2(v4, v5) v2.AddArg(v3) v1.AddArg2(v2, v4) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh16x32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh16x32 x y) // result: (SRAV (SignExt16to64 x) (OR (NEGV (SGTU (ZeroExt32to64 y) (MOVVconst [63]))) (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(y) v5 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(63) v3.AddArg2(v4, v5) v2.AddArg(v3) v1.AddArg2(v2, v4) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh16x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh16x64 x y) // result: (SRAV (SignExt16to64 x) (OR (NEGV (SGTU y (MOVVconst [63]))) y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v4.AuxInt = int64ToAuxInt(63) v3.AddArg2(y, v4) v2.AddArg(v3) v1.AddArg2(v2, y) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh16x8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh16x8 x y) // result: (SRAV (SignExt16to64 x) (OR (NEGV (SGTU (ZeroExt8to64 y) (MOVVconst [63]))) (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(y) v5 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(63) v3.AddArg2(v4, v5) v2.AddArg(v3) v1.AddArg2(v2, v4) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh32Ux16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh32Ux16 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt16to64 y))) (SRLV (ZeroExt32to64 x) (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v5 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v5.AddArg(x) v4.AddArg2(v5, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh32Ux32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh32Ux32 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt32to64 y))) (SRLV (ZeroExt32to64 x) (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v5 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v5.AddArg(x) v4.AddArg2(v5, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh32Ux64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh32Ux64 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) y)) (SRLV (ZeroExt32to64 x) y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v1.AddArg2(v2, y) v0.AddArg(v1) v3 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(x) v3.AddArg2(v4, y) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpRsh32Ux8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh32Ux8 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt8to64 y))) (SRLV (ZeroExt32to64 x) (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v5 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v5.AddArg(x) v4.AddArg2(v5, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh32x16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh32x16 x y) // result: (SRAV (SignExt32to64 x) (OR (NEGV (SGTU (ZeroExt16to64 y) (MOVVconst [63]))) (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(y) v5 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(63) v3.AddArg2(v4, v5) v2.AddArg(v3) v1.AddArg2(v2, v4) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh32x32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh32x32 x y) // result: (SRAV (SignExt32to64 x) (OR (NEGV (SGTU (ZeroExt32to64 y) (MOVVconst [63]))) (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(y) v5 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(63) v3.AddArg2(v4, v5) v2.AddArg(v3) v1.AddArg2(v2, v4) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh32x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh32x64 x y) // result: (SRAV (SignExt32to64 x) (OR (NEGV (SGTU y (MOVVconst [63]))) y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v4.AuxInt = int64ToAuxInt(63) v3.AddArg2(y, v4) v2.AddArg(v3) v1.AddArg2(v2, y) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh32x8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh32x8 x y) // result: (SRAV (SignExt32to64 x) (OR (NEGV (SGTU (ZeroExt8to64 y) (MOVVconst [63]))) (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(y) v5 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(63) v3.AddArg2(v4, v5) v2.AddArg(v3) v1.AddArg2(v2, v4) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh64Ux16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh64Ux16 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt16to64 y))) (SRLV x (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh64Ux32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh64Ux32 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt32to64 y))) (SRLV x (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh64Ux64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh64Ux64 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) y)) (SRLV x y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v1.AddArg2(v2, y) v0.AddArg(v1) v3 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v3.AddArg2(x, y) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpRsh64Ux8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh64Ux8 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt8to64 y))) (SRLV x (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v4.AddArg2(x, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh64x16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh64x16 x y) // result: (SRAV x (OR (NEGV (SGTU (ZeroExt16to64 y) (MOVVconst [63]))) (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpMIPS64OR, t) v1 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v2 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v4 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v4.AuxInt = int64ToAuxInt(63) v2.AddArg2(v3, v4) v1.AddArg(v2) v0.AddArg2(v1, v3) v.AddArg2(x, v0) return true } } func rewriteValueMIPS64_OpRsh64x32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh64x32 x y) // result: (SRAV x (OR (NEGV (SGTU (ZeroExt32to64 y) (MOVVconst [63]))) (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpMIPS64OR, t) v1 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v2 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v4 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v4.AuxInt = int64ToAuxInt(63) v2.AddArg2(v3, v4) v1.AddArg(v2) v0.AddArg2(v1, v3) v.AddArg2(x, v0) return true } } func rewriteValueMIPS64_OpRsh64x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh64x64 x y) // result: (SRAV x (OR (NEGV (SGTU y (MOVVconst [63]))) y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpMIPS64OR, t) v1 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v2 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v3 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(63) v2.AddArg2(y, v3) v1.AddArg(v2) v0.AddArg2(v1, y) v.AddArg2(x, v0) return true } } func rewriteValueMIPS64_OpRsh64x8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh64x8 x y) // result: (SRAV x (OR (NEGV (SGTU (ZeroExt8to64 y) (MOVVconst [63]))) (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpMIPS64OR, t) v1 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v2 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v4 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v4.AuxInt = int64ToAuxInt(63) v2.AddArg2(v3, v4) v1.AddArg(v2) v0.AddArg2(v1, v3) v.AddArg2(x, v0) return true } } func rewriteValueMIPS64_OpRsh8Ux16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh8Ux16 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt16to64 y))) (SRLV (ZeroExt8to64 x) (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v5 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v5.AddArg(x) v4.AddArg2(v5, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh8Ux32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh8Ux32 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt32to64 y))) (SRLV (ZeroExt8to64 x) (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v5 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v5.AddArg(x) v4.AddArg2(v5, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh8Ux64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh8Ux64 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) y)) (SRLV (ZeroExt8to64 x) y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v1.AddArg2(v2, y) v0.AddArg(v1) v3 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(x) v3.AddArg2(v4, y) v.AddArg2(v0, v3) return true } } func rewriteValueMIPS64_OpRsh8Ux8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh8Ux8 x y) // result: (AND (NEGV (SGTU (MOVVconst [64]) (ZeroExt8to64 y))) (SRLV (ZeroExt8to64 x) (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64AND) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v1 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v1.AddArg2(v2, v3) v0.AddArg(v1) v4 := b.NewValue0(v.Pos, OpMIPS64SRLV, t) v5 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v5.AddArg(x) v4.AddArg2(v5, v3) v.AddArg2(v0, v4) return true } } func rewriteValueMIPS64_OpRsh8x16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh8x16 x y) // result: (SRAV (SignExt8to64 x) (OR (NEGV (SGTU (ZeroExt16to64 y) (MOVVconst [63]))) (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(y) v5 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(63) v3.AddArg2(v4, v5) v2.AddArg(v3) v1.AddArg2(v2, v4) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh8x32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh8x32 x y) // result: (SRAV (SignExt8to64 x) (OR (NEGV (SGTU (ZeroExt32to64 y) (MOVVconst [63]))) (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(y) v5 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(63) v3.AddArg2(v4, v5) v2.AddArg(v3) v1.AddArg2(v2, v4) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh8x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh8x64 x y) // result: (SRAV (SignExt8to64 x) (OR (NEGV (SGTU y (MOVVconst [63]))) y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v4.AuxInt = int64ToAuxInt(63) v3.AddArg2(y, v4) v2.AddArg(v3) v1.AddArg2(v2, y) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpRsh8x8(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Rsh8x8 x y) // result: (SRAV (SignExt8to64 x) (OR (NEGV (SGTU (ZeroExt8to64 y) (MOVVconst [63]))) (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 v.reset(OpMIPS64SRAV) v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpMIPS64OR, t) v2 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v3 := b.NewValue0(v.Pos, OpMIPS64SGTU, typ.Bool) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(y) v5 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v5.AuxInt = int64ToAuxInt(63) v3.AddArg2(v4, v5) v2.AddArg(v3) v1.AddArg2(v2, v4) v.AddArg2(v0, v1) return true } } func rewriteValueMIPS64_OpSelect0(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Select0 (Mul64uover x y)) // result: (Select1 (MULVU x y)) for { if v_0.Op != OpMul64uover { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpSelect1) v.Type = typ.UInt64 v0 := b.NewValue0(v.Pos, OpMIPS64MULVU, types.NewTuple(typ.UInt64, typ.UInt64)) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (Select0 (Add64carry x y c)) // result: (ADDV (ADDV x y) c) for { t := v.Type if v_0.Op != OpAdd64carry { break } c := v_0.Args[2] x := v_0.Args[0] y := v_0.Args[1] v.reset(OpMIPS64ADDV) v0 := b.NewValue0(v.Pos, OpMIPS64ADDV, t) v0.AddArg2(x, y) v.AddArg2(v0, c) return true } // match: (Select0 (Sub64borrow x y c)) // result: (SUBV (SUBV x y) c) for { t := v.Type if v_0.Op != OpSub64borrow { break } c := v_0.Args[2] x := v_0.Args[0] y := v_0.Args[1] v.reset(OpMIPS64SUBV) v0 := b.NewValue0(v.Pos, OpMIPS64SUBV, t) v0.AddArg2(x, y) v.AddArg2(v0, c) return true } // match: (Select0 (DIVVU _ (MOVVconst [1]))) // result: (MOVVconst [0]) for { if v_0.Op != OpMIPS64DIVVU { break } _ = v_0.Args[1] v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0_1.AuxInt) != 1 { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (Select0 (DIVVU x (MOVVconst [c]))) // cond: isPowerOfTwo64(c) // result: (ANDconst [c-1] x) for { if v_0.Op != OpMIPS64DIVVU { break } _ = v_0.Args[1] x := v_0.Args[0] v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0_1.AuxInt) if !(isPowerOfTwo64(c)) { break } v.reset(OpMIPS64ANDconst) v.AuxInt = int64ToAuxInt(c - 1) v.AddArg(x) return true } // match: (Select0 (DIVV (MOVVconst [c]) (MOVVconst [d]))) // cond: d != 0 // result: (MOVVconst [c%d]) for { if v_0.Op != OpMIPS64DIVV { break } _ = v_0.Args[1] v_0_0 := v_0.Args[0] if v_0_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0_0.AuxInt) v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0_1.AuxInt) if !(d != 0) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(c % d) return true } // match: (Select0 (DIVVU (MOVVconst [c]) (MOVVconst [d]))) // cond: d != 0 // result: (MOVVconst [int64(uint64(c)%uint64(d))]) for { if v_0.Op != OpMIPS64DIVVU { break } _ = v_0.Args[1] v_0_0 := v_0.Args[0] if v_0_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0_0.AuxInt) v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0_1.AuxInt) if !(d != 0) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) % uint64(d))) return true } return false } func rewriteValueMIPS64_OpSelect1(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Select1 (Mul64uover x y)) // result: (SGTU (Select0 (MULVU x y)) (MOVVconst [0])) for { if v_0.Op != OpMul64uover { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpMIPS64SGTU) v.Type = typ.Bool v0 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v1 := b.NewValue0(v.Pos, OpMIPS64MULVU, types.NewTuple(typ.UInt64, typ.UInt64)) v1.AddArg2(x, y) v0.AddArg(v1) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v2.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, v2) return true } // match: (Select1 (Add64carry x y c)) // result: (OR (SGTU x s:(ADDV x y)) (SGTU s (ADDV s c))) for { t := v.Type if v_0.Op != OpAdd64carry { break } c := v_0.Args[2] x := v_0.Args[0] y := v_0.Args[1] v.reset(OpMIPS64OR) v0 := b.NewValue0(v.Pos, OpMIPS64SGTU, t) s := b.NewValue0(v.Pos, OpMIPS64ADDV, t) s.AddArg2(x, y) v0.AddArg2(x, s) v2 := b.NewValue0(v.Pos, OpMIPS64SGTU, t) v3 := b.NewValue0(v.Pos, OpMIPS64ADDV, t) v3.AddArg2(s, c) v2.AddArg2(s, v3) v.AddArg2(v0, v2) return true } // match: (Select1 (Sub64borrow x y c)) // result: (OR (SGTU s:(SUBV x y) x) (SGTU (SUBV s c) s)) for { t := v.Type if v_0.Op != OpSub64borrow { break } c := v_0.Args[2] x := v_0.Args[0] y := v_0.Args[1] v.reset(OpMIPS64OR) v0 := b.NewValue0(v.Pos, OpMIPS64SGTU, t) s := b.NewValue0(v.Pos, OpMIPS64SUBV, t) s.AddArg2(x, y) v0.AddArg2(s, x) v2 := b.NewValue0(v.Pos, OpMIPS64SGTU, t) v3 := b.NewValue0(v.Pos, OpMIPS64SUBV, t) v3.AddArg2(s, c) v2.AddArg2(v3, s) v.AddArg2(v0, v2) return true } // match: (Select1 (MULVU x (MOVVconst [-1]))) // result: (NEGV x) for { if v_0.Op != OpMIPS64MULVU { break } _ = v_0.Args[1] v_0_0 := v_0.Args[0] v_0_1 := v_0.Args[1] for _i0 := 0; _i0 <= 1; _i0, v_0_0, v_0_1 = _i0+1, v_0_1, v_0_0 { x := v_0_0 if v_0_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0_1.AuxInt) != -1 { continue } v.reset(OpMIPS64NEGV) v.AddArg(x) return true } break } // match: (Select1 (MULVU _ (MOVVconst [0]))) // result: (MOVVconst [0]) for { if v_0.Op != OpMIPS64MULVU { break } _ = v_0.Args[1] v_0_0 := v_0.Args[0] v_0_1 := v_0.Args[1] for _i0 := 0; _i0 <= 1; _i0, v_0_0, v_0_1 = _i0+1, v_0_1, v_0_0 { if v_0_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0_1.AuxInt) != 0 { continue } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(0) return true } break } // match: (Select1 (MULVU x (MOVVconst [1]))) // result: x for { if v_0.Op != OpMIPS64MULVU { break } _ = v_0.Args[1] v_0_0 := v_0.Args[0] v_0_1 := v_0.Args[1] for _i0 := 0; _i0 <= 1; _i0, v_0_0, v_0_1 = _i0+1, v_0_1, v_0_0 { x := v_0_0 if v_0_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0_1.AuxInt) != 1 { continue } v.copyOf(x) return true } break } // match: (Select1 (MULVU x (MOVVconst [c]))) // cond: isPowerOfTwo64(c) // result: (SLLVconst [log64(c)] x) for { if v_0.Op != OpMIPS64MULVU { break } _ = v_0.Args[1] v_0_0 := v_0.Args[0] v_0_1 := v_0.Args[1] for _i0 := 0; _i0 <= 1; _i0, v_0_0, v_0_1 = _i0+1, v_0_1, v_0_0 { x := v_0_0 if v_0_1.Op != OpMIPS64MOVVconst { continue } c := auxIntToInt64(v_0_1.AuxInt) if !(isPowerOfTwo64(c)) { continue } v.reset(OpMIPS64SLLVconst) v.AuxInt = int64ToAuxInt(log64(c)) v.AddArg(x) return true } break } // match: (Select1 (DIVVU x (MOVVconst [1]))) // result: x for { if v_0.Op != OpMIPS64DIVVU { break } _ = v_0.Args[1] x := v_0.Args[0] v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0_1.AuxInt) != 1 { break } v.copyOf(x) return true } // match: (Select1 (DIVVU x (MOVVconst [c]))) // cond: isPowerOfTwo64(c) // result: (SRLVconst [log64(c)] x) for { if v_0.Op != OpMIPS64DIVVU { break } _ = v_0.Args[1] x := v_0.Args[0] v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0_1.AuxInt) if !(isPowerOfTwo64(c)) { break } v.reset(OpMIPS64SRLVconst) v.AuxInt = int64ToAuxInt(log64(c)) v.AddArg(x) return true } // match: (Select1 (MULVU (MOVVconst [c]) (MOVVconst [d]))) // result: (MOVVconst [c*d]) for { if v_0.Op != OpMIPS64MULVU { break } _ = v_0.Args[1] v_0_0 := v_0.Args[0] v_0_1 := v_0.Args[1] for _i0 := 0; _i0 <= 1; _i0, v_0_0, v_0_1 = _i0+1, v_0_1, v_0_0 { if v_0_0.Op != OpMIPS64MOVVconst { continue } c := auxIntToInt64(v_0_0.AuxInt) if v_0_1.Op != OpMIPS64MOVVconst { continue } d := auxIntToInt64(v_0_1.AuxInt) v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(c * d) return true } break } // match: (Select1 (DIVV (MOVVconst [c]) (MOVVconst [d]))) // cond: d != 0 // result: (MOVVconst [c/d]) for { if v_0.Op != OpMIPS64DIVV { break } _ = v_0.Args[1] v_0_0 := v_0.Args[0] if v_0_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0_0.AuxInt) v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0_1.AuxInt) if !(d != 0) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(c / d) return true } // match: (Select1 (DIVVU (MOVVconst [c]) (MOVVconst [d]))) // cond: d != 0 // result: (MOVVconst [int64(uint64(c)/uint64(d))]) for { if v_0.Op != OpMIPS64DIVVU { break } _ = v_0.Args[1] v_0_0 := v_0.Args[0] if v_0_0.Op != OpMIPS64MOVVconst { break } c := auxIntToInt64(v_0_0.AuxInt) v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst { break } d := auxIntToInt64(v_0_1.AuxInt) if !(d != 0) { break } v.reset(OpMIPS64MOVVconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) / uint64(d))) return true } return false } func rewriteValueMIPS64_OpSlicemask(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (Slicemask x) // result: (SRAVconst (NEGV x) [63]) for { t := v.Type x := v_0 v.reset(OpMIPS64SRAVconst) v.AuxInt = int64ToAuxInt(63) v0 := b.NewValue0(v.Pos, OpMIPS64NEGV, t) v0.AddArg(x) v.AddArg(v0) return true } } func rewriteValueMIPS64_OpStore(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (Store {t} ptr val mem) // cond: t.Size() == 1 // result: (MOVBstore ptr val mem) for { t := auxToType(v.Aux) ptr := v_0 val := v_1 mem := v_2 if !(t.Size() == 1) { break } v.reset(OpMIPS64MOVBstore) v.AddArg3(ptr, val, mem) return true } // match: (Store {t} ptr val mem) // cond: t.Size() == 2 // result: (MOVHstore ptr val mem) for { t := auxToType(v.Aux) ptr := v_0 val := v_1 mem := v_2 if !(t.Size() == 2) { break } v.reset(OpMIPS64MOVHstore) v.AddArg3(ptr, val, mem) return true } // match: (Store {t} ptr val mem) // cond: t.Size() == 4 && !t.IsFloat() // result: (MOVWstore ptr val mem) for { t := auxToType(v.Aux) ptr := v_0 val := v_1 mem := v_2 if !(t.Size() == 4 && !t.IsFloat()) { break } v.reset(OpMIPS64MOVWstore) v.AddArg3(ptr, val, mem) return true } // match: (Store {t} ptr val mem) // cond: t.Size() == 8 && !t.IsFloat() // result: (MOVVstore ptr val mem) for { t := auxToType(v.Aux) ptr := v_0 val := v_1 mem := v_2 if !(t.Size() == 8 && !t.IsFloat()) { break } v.reset(OpMIPS64MOVVstore) v.AddArg3(ptr, val, mem) return true } // match: (Store {t} ptr val mem) // cond: t.Size() == 4 && t.IsFloat() // result: (MOVFstore ptr val mem) for { t := auxToType(v.Aux) ptr := v_0 val := v_1 mem := v_2 if !(t.Size() == 4 && t.IsFloat()) { break } v.reset(OpMIPS64MOVFstore) v.AddArg3(ptr, val, mem) return true } // match: (Store {t} ptr val mem) // cond: t.Size() == 8 && t.IsFloat() // result: (MOVDstore ptr val mem) for { t := auxToType(v.Aux) ptr := v_0 val := v_1 mem := v_2 if !(t.Size() == 8 && t.IsFloat()) { break } v.reset(OpMIPS64MOVDstore) v.AddArg3(ptr, val, mem) return true } return false } func rewriteValueMIPS64_OpZero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (Zero [0] _ mem) // result: mem for { if auxIntToInt64(v.AuxInt) != 0 { break } mem := v_1 v.copyOf(mem) return true } // match: (Zero [1] ptr mem) // result: (MOVBstore ptr (MOVVconst [0]) mem) for { if auxIntToInt64(v.AuxInt) != 1 { break } ptr := v_0 mem := v_1 v.reset(OpMIPS64MOVBstore) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg3(ptr, v0, mem) return true } // match: (Zero [2] {t} ptr mem) // cond: t.Alignment()%2 == 0 // result: (MOVHstore ptr (MOVVconst [0]) mem) for { if auxIntToInt64(v.AuxInt) != 2 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%2 == 0) { break } v.reset(OpMIPS64MOVHstore) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg3(ptr, v0, mem) return true } // match: (Zero [2] ptr mem) // result: (MOVBstore [1] ptr (MOVVconst [0]) (MOVBstore [0] ptr (MOVVconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 2 { break } ptr := v_0 mem := v_1 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(1) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(0) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [4] {t} ptr mem) // cond: t.Alignment()%4 == 0 // result: (MOVWstore ptr (MOVVconst [0]) mem) for { if auxIntToInt64(v.AuxInt) != 4 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%4 == 0) { break } v.reset(OpMIPS64MOVWstore) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg3(ptr, v0, mem) return true } // match: (Zero [4] {t} ptr mem) // cond: t.Alignment()%2 == 0 // result: (MOVHstore [2] ptr (MOVVconst [0]) (MOVHstore [0] ptr (MOVVconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 4 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%2 == 0) { break } v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(2) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(0) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [4] ptr mem) // result: (MOVBstore [3] ptr (MOVVconst [0]) (MOVBstore [2] ptr (MOVVconst [0]) (MOVBstore [1] ptr (MOVVconst [0]) (MOVBstore [0] ptr (MOVVconst [0]) mem)))) for { if auxIntToInt64(v.AuxInt) != 4 { break } ptr := v_0 mem := v_1 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(3) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(2) v2 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v2.AuxInt = int32ToAuxInt(1) v3 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v3.AuxInt = int32ToAuxInt(0) v3.AddArg3(ptr, v0, mem) v2.AddArg3(ptr, v0, v3) v1.AddArg3(ptr, v0, v2) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [8] {t} ptr mem) // cond: t.Alignment()%8 == 0 // result: (MOVVstore ptr (MOVVconst [0]) mem) for { if auxIntToInt64(v.AuxInt) != 8 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%8 == 0) { break } v.reset(OpMIPS64MOVVstore) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg3(ptr, v0, mem) return true } // match: (Zero [8] {t} ptr mem) // cond: t.Alignment()%4 == 0 // result: (MOVWstore [4] ptr (MOVVconst [0]) (MOVWstore [0] ptr (MOVVconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 8 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%4 == 0) { break } v.reset(OpMIPS64MOVWstore) v.AuxInt = int32ToAuxInt(4) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVWstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(0) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [8] {t} ptr mem) // cond: t.Alignment()%2 == 0 // result: (MOVHstore [6] ptr (MOVVconst [0]) (MOVHstore [4] ptr (MOVVconst [0]) (MOVHstore [2] ptr (MOVVconst [0]) (MOVHstore [0] ptr (MOVVconst [0]) mem)))) for { if auxIntToInt64(v.AuxInt) != 8 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%2 == 0) { break } v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(6) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(4) v2 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v2.AuxInt = int32ToAuxInt(2) v3 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v3.AuxInt = int32ToAuxInt(0) v3.AddArg3(ptr, v0, mem) v2.AddArg3(ptr, v0, v3) v1.AddArg3(ptr, v0, v2) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [3] ptr mem) // result: (MOVBstore [2] ptr (MOVVconst [0]) (MOVBstore [1] ptr (MOVVconst [0]) (MOVBstore [0] ptr (MOVVconst [0]) mem))) for { if auxIntToInt64(v.AuxInt) != 3 { break } ptr := v_0 mem := v_1 v.reset(OpMIPS64MOVBstore) v.AuxInt = int32ToAuxInt(2) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(1) v2 := b.NewValue0(v.Pos, OpMIPS64MOVBstore, types.TypeMem) v2.AuxInt = int32ToAuxInt(0) v2.AddArg3(ptr, v0, mem) v1.AddArg3(ptr, v0, v2) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [6] {t} ptr mem) // cond: t.Alignment()%2 == 0 // result: (MOVHstore [4] ptr (MOVVconst [0]) (MOVHstore [2] ptr (MOVVconst [0]) (MOVHstore [0] ptr (MOVVconst [0]) mem))) for { if auxIntToInt64(v.AuxInt) != 6 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%2 == 0) { break } v.reset(OpMIPS64MOVHstore) v.AuxInt = int32ToAuxInt(4) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(2) v2 := b.NewValue0(v.Pos, OpMIPS64MOVHstore, types.TypeMem) v2.AuxInt = int32ToAuxInt(0) v2.AddArg3(ptr, v0, mem) v1.AddArg3(ptr, v0, v2) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [12] {t} ptr mem) // cond: t.Alignment()%4 == 0 // result: (MOVWstore [8] ptr (MOVVconst [0]) (MOVWstore [4] ptr (MOVVconst [0]) (MOVWstore [0] ptr (MOVVconst [0]) mem))) for { if auxIntToInt64(v.AuxInt) != 12 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%4 == 0) { break } v.reset(OpMIPS64MOVWstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVWstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(4) v2 := b.NewValue0(v.Pos, OpMIPS64MOVWstore, types.TypeMem) v2.AuxInt = int32ToAuxInt(0) v2.AddArg3(ptr, v0, mem) v1.AddArg3(ptr, v0, v2) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [16] {t} ptr mem) // cond: t.Alignment()%8 == 0 // result: (MOVVstore [8] ptr (MOVVconst [0]) (MOVVstore [0] ptr (MOVVconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 16 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%8 == 0) { break } v.reset(OpMIPS64MOVVstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(0) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [24] {t} ptr mem) // cond: t.Alignment()%8 == 0 // result: (MOVVstore [16] ptr (MOVVconst [0]) (MOVVstore [8] ptr (MOVVconst [0]) (MOVVstore [0] ptr (MOVVconst [0]) mem))) for { if auxIntToInt64(v.AuxInt) != 24 { break } t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(t.Alignment()%8 == 0) { break } v.reset(OpMIPS64MOVVstore) v.AuxInt = int32ToAuxInt(16) v0 := b.NewValue0(v.Pos, OpMIPS64MOVVconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpMIPS64MOVVstore, types.TypeMem) v1.AuxInt = int32ToAuxInt(8) v2 := b.NewValue0(v.Pos, OpMIPS64MOVVstore, types.TypeMem) v2.AuxInt = int32ToAuxInt(0) v2.AddArg3(ptr, v0, mem) v1.AddArg3(ptr, v0, v2) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [s] {t} ptr mem) // cond: s%8 == 0 && s > 24 && s <= 8*128 && t.Alignment()%8 == 0 && !config.noDuffDevice // result: (DUFFZERO [8 * (128 - s/8)] ptr mem) for { s := auxIntToInt64(v.AuxInt) t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !(s%8 == 0 && s > 24 && s <= 8*128 && t.Alignment()%8 == 0 && !config.noDuffDevice) { break } v.reset(OpMIPS64DUFFZERO) v.AuxInt = int64ToAuxInt(8 * (128 - s/8)) v.AddArg2(ptr, mem) return true } // match: (Zero [s] {t} ptr mem) // cond: (s > 8*128 || config.noDuffDevice) || t.Alignment()%8 != 0 // result: (LoweredZero [t.Alignment()] ptr (ADDVconst ptr [s-moveSize(t.Alignment(), config)]) mem) for { s := auxIntToInt64(v.AuxInt) t := auxToType(v.Aux) ptr := v_0 mem := v_1 if !((s > 8*128 || config.noDuffDevice) || t.Alignment()%8 != 0) { break } v.reset(OpMIPS64LoweredZero) v.AuxInt = int64ToAuxInt(t.Alignment()) v0 := b.NewValue0(v.Pos, OpMIPS64ADDVconst, ptr.Type) v0.AuxInt = int64ToAuxInt(s - moveSize(t.Alignment(), config)) v0.AddArg(ptr) v.AddArg3(ptr, v0, mem) return true } return false } func rewriteBlockMIPS64(b *Block) bool { switch b.Kind { case BlockMIPS64EQ: // match: (EQ (FPFlagTrue cmp) yes no) // result: (FPF cmp yes no) for b.Controls[0].Op == OpMIPS64FPFlagTrue { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockMIPS64FPF, cmp) return true } // match: (EQ (FPFlagFalse cmp) yes no) // result: (FPT cmp yes no) for b.Controls[0].Op == OpMIPS64FPFlagFalse { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockMIPS64FPT, cmp) return true } // match: (EQ (XORconst [1] cmp:(SGT _ _)) yes no) // result: (NE cmp yes no) for b.Controls[0].Op == OpMIPS64XORconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } cmp := v_0.Args[0] if cmp.Op != OpMIPS64SGT { break } b.resetWithControl(BlockMIPS64NE, cmp) return true } // match: (EQ (XORconst [1] cmp:(SGTU _ _)) yes no) // result: (NE cmp yes no) for b.Controls[0].Op == OpMIPS64XORconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } cmp := v_0.Args[0] if cmp.Op != OpMIPS64SGTU { break } b.resetWithControl(BlockMIPS64NE, cmp) return true } // match: (EQ (XORconst [1] cmp:(SGTconst _)) yes no) // result: (NE cmp yes no) for b.Controls[0].Op == OpMIPS64XORconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } cmp := v_0.Args[0] if cmp.Op != OpMIPS64SGTconst { break } b.resetWithControl(BlockMIPS64NE, cmp) return true } // match: (EQ (XORconst [1] cmp:(SGTUconst _)) yes no) // result: (NE cmp yes no) for b.Controls[0].Op == OpMIPS64XORconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } cmp := v_0.Args[0] if cmp.Op != OpMIPS64SGTUconst { break } b.resetWithControl(BlockMIPS64NE, cmp) return true } // match: (EQ (SGTUconst [1] x) yes no) // result: (NE x yes no) for b.Controls[0].Op == OpMIPS64SGTUconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } x := v_0.Args[0] b.resetWithControl(BlockMIPS64NE, x) return true } // match: (EQ (SGTU x (MOVVconst [0])) yes no) // result: (EQ x yes no) for b.Controls[0].Op == OpMIPS64SGTU { v_0 := b.Controls[0] _ = v_0.Args[1] x := v_0.Args[0] v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0_1.AuxInt) != 0 { break } b.resetWithControl(BlockMIPS64EQ, x) return true } // match: (EQ (SGTconst [0] x) yes no) // result: (GEZ x yes no) for b.Controls[0].Op == OpMIPS64SGTconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockMIPS64GEZ, x) return true } // match: (EQ (SGT x (MOVVconst [0])) yes no) // result: (LEZ x yes no) for b.Controls[0].Op == OpMIPS64SGT { v_0 := b.Controls[0] _ = v_0.Args[1] x := v_0.Args[0] v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0_1.AuxInt) != 0 { break } b.resetWithControl(BlockMIPS64LEZ, x) return true } // match: (EQ (MOVVconst [0]) yes no) // result: (First yes no) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } b.Reset(BlockFirst) return true } // match: (EQ (MOVVconst [c]) yes no) // cond: c != 0 // result: (First no yes) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c != 0) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } case BlockMIPS64GEZ: // match: (GEZ (MOVVconst [c]) yes no) // cond: c >= 0 // result: (First yes no) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c >= 0) { break } b.Reset(BlockFirst) return true } // match: (GEZ (MOVVconst [c]) yes no) // cond: c < 0 // result: (First no yes) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c < 0) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } case BlockMIPS64GTZ: // match: (GTZ (MOVVconst [c]) yes no) // cond: c > 0 // result: (First yes no) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c > 0) { break } b.Reset(BlockFirst) return true } // match: (GTZ (MOVVconst [c]) yes no) // cond: c <= 0 // result: (First no yes) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c <= 0) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } case BlockIf: // match: (If cond yes no) // result: (NE cond yes no) for { cond := b.Controls[0] b.resetWithControl(BlockMIPS64NE, cond) return true } case BlockMIPS64LEZ: // match: (LEZ (MOVVconst [c]) yes no) // cond: c <= 0 // result: (First yes no) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c <= 0) { break } b.Reset(BlockFirst) return true } // match: (LEZ (MOVVconst [c]) yes no) // cond: c > 0 // result: (First no yes) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c > 0) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } case BlockMIPS64LTZ: // match: (LTZ (MOVVconst [c]) yes no) // cond: c < 0 // result: (First yes no) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c < 0) { break } b.Reset(BlockFirst) return true } // match: (LTZ (MOVVconst [c]) yes no) // cond: c >= 0 // result: (First no yes) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c >= 0) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } case BlockMIPS64NE: // match: (NE (FPFlagTrue cmp) yes no) // result: (FPT cmp yes no) for b.Controls[0].Op == OpMIPS64FPFlagTrue { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockMIPS64FPT, cmp) return true } // match: (NE (FPFlagFalse cmp) yes no) // result: (FPF cmp yes no) for b.Controls[0].Op == OpMIPS64FPFlagFalse { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockMIPS64FPF, cmp) return true } // match: (NE (XORconst [1] cmp:(SGT _ _)) yes no) // result: (EQ cmp yes no) for b.Controls[0].Op == OpMIPS64XORconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } cmp := v_0.Args[0] if cmp.Op != OpMIPS64SGT { break } b.resetWithControl(BlockMIPS64EQ, cmp) return true } // match: (NE (XORconst [1] cmp:(SGTU _ _)) yes no) // result: (EQ cmp yes no) for b.Controls[0].Op == OpMIPS64XORconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } cmp := v_0.Args[0] if cmp.Op != OpMIPS64SGTU { break } b.resetWithControl(BlockMIPS64EQ, cmp) return true } // match: (NE (XORconst [1] cmp:(SGTconst _)) yes no) // result: (EQ cmp yes no) for b.Controls[0].Op == OpMIPS64XORconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } cmp := v_0.Args[0] if cmp.Op != OpMIPS64SGTconst { break } b.resetWithControl(BlockMIPS64EQ, cmp) return true } // match: (NE (XORconst [1] cmp:(SGTUconst _)) yes no) // result: (EQ cmp yes no) for b.Controls[0].Op == OpMIPS64XORconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } cmp := v_0.Args[0] if cmp.Op != OpMIPS64SGTUconst { break } b.resetWithControl(BlockMIPS64EQ, cmp) return true } // match: (NE (SGTUconst [1] x) yes no) // result: (EQ x yes no) for b.Controls[0].Op == OpMIPS64SGTUconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 1 { break } x := v_0.Args[0] b.resetWithControl(BlockMIPS64EQ, x) return true } // match: (NE (SGTU x (MOVVconst [0])) yes no) // result: (NE x yes no) for b.Controls[0].Op == OpMIPS64SGTU { v_0 := b.Controls[0] _ = v_0.Args[1] x := v_0.Args[0] v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0_1.AuxInt) != 0 { break } b.resetWithControl(BlockMIPS64NE, x) return true } // match: (NE (SGTconst [0] x) yes no) // result: (LTZ x yes no) for b.Controls[0].Op == OpMIPS64SGTconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockMIPS64LTZ, x) return true } // match: (NE (SGT x (MOVVconst [0])) yes no) // result: (GTZ x yes no) for b.Controls[0].Op == OpMIPS64SGT { v_0 := b.Controls[0] _ = v_0.Args[1] x := v_0.Args[0] v_0_1 := v_0.Args[1] if v_0_1.Op != OpMIPS64MOVVconst || auxIntToInt64(v_0_1.AuxInt) != 0 { break } b.resetWithControl(BlockMIPS64GTZ, x) return true } // match: (NE (MOVVconst [0]) yes no) // result: (First no yes) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (NE (MOVVconst [c]) yes no) // cond: c != 0 // result: (First yes no) for b.Controls[0].Op == OpMIPS64MOVVconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c != 0) { break } b.Reset(BlockFirst) return true } } return false }