// Code generated from _gen/ARM64.rules using 'go generate'; DO NOT EDIT. package ssa import "cmd/compile/internal/types" func rewriteValueARM64(v *Value) bool { switch v.Op { case OpARM64ADCSflags: return rewriteValueARM64_OpARM64ADCSflags(v) case OpARM64ADD: return rewriteValueARM64_OpARM64ADD(v) case OpARM64ADDSflags: return rewriteValueARM64_OpARM64ADDSflags(v) case OpARM64ADDconst: return rewriteValueARM64_OpARM64ADDconst(v) case OpARM64ADDshiftLL: return rewriteValueARM64_OpARM64ADDshiftLL(v) case OpARM64ADDshiftRA: return rewriteValueARM64_OpARM64ADDshiftRA(v) case OpARM64ADDshiftRL: return rewriteValueARM64_OpARM64ADDshiftRL(v) case OpARM64AND: return rewriteValueARM64_OpARM64AND(v) case OpARM64ANDconst: return rewriteValueARM64_OpARM64ANDconst(v) case OpARM64ANDshiftLL: return rewriteValueARM64_OpARM64ANDshiftLL(v) case OpARM64ANDshiftRA: return rewriteValueARM64_OpARM64ANDshiftRA(v) case OpARM64ANDshiftRL: return rewriteValueARM64_OpARM64ANDshiftRL(v) case OpARM64ANDshiftRO: return rewriteValueARM64_OpARM64ANDshiftRO(v) case OpARM64BIC: return rewriteValueARM64_OpARM64BIC(v) case OpARM64BICshiftLL: return rewriteValueARM64_OpARM64BICshiftLL(v) case OpARM64BICshiftRA: return rewriteValueARM64_OpARM64BICshiftRA(v) case OpARM64BICshiftRL: return rewriteValueARM64_OpARM64BICshiftRL(v) case OpARM64BICshiftRO: return rewriteValueARM64_OpARM64BICshiftRO(v) case OpARM64CMN: return rewriteValueARM64_OpARM64CMN(v) case OpARM64CMNW: return rewriteValueARM64_OpARM64CMNW(v) case OpARM64CMNWconst: return rewriteValueARM64_OpARM64CMNWconst(v) case OpARM64CMNconst: return rewriteValueARM64_OpARM64CMNconst(v) case OpARM64CMNshiftLL: return rewriteValueARM64_OpARM64CMNshiftLL(v) case OpARM64CMNshiftRA: return rewriteValueARM64_OpARM64CMNshiftRA(v) case OpARM64CMNshiftRL: return rewriteValueARM64_OpARM64CMNshiftRL(v) case OpARM64CMP: return rewriteValueARM64_OpARM64CMP(v) case OpARM64CMPW: return rewriteValueARM64_OpARM64CMPW(v) case OpARM64CMPWconst: return rewriteValueARM64_OpARM64CMPWconst(v) case OpARM64CMPconst: return rewriteValueARM64_OpARM64CMPconst(v) case OpARM64CMPshiftLL: return rewriteValueARM64_OpARM64CMPshiftLL(v) case OpARM64CMPshiftRA: return rewriteValueARM64_OpARM64CMPshiftRA(v) case OpARM64CMPshiftRL: return rewriteValueARM64_OpARM64CMPshiftRL(v) case OpARM64CSEL: return rewriteValueARM64_OpARM64CSEL(v) case OpARM64CSEL0: return rewriteValueARM64_OpARM64CSEL0(v) case OpARM64CSETM: return rewriteValueARM64_OpARM64CSETM(v) case OpARM64CSINC: return rewriteValueARM64_OpARM64CSINC(v) case OpARM64CSINV: return rewriteValueARM64_OpARM64CSINV(v) case OpARM64CSNEG: return rewriteValueARM64_OpARM64CSNEG(v) case OpARM64DIV: return rewriteValueARM64_OpARM64DIV(v) case OpARM64DIVW: return rewriteValueARM64_OpARM64DIVW(v) case OpARM64EON: return rewriteValueARM64_OpARM64EON(v) case OpARM64EONshiftLL: return rewriteValueARM64_OpARM64EONshiftLL(v) case OpARM64EONshiftRA: return rewriteValueARM64_OpARM64EONshiftRA(v) case OpARM64EONshiftRL: return rewriteValueARM64_OpARM64EONshiftRL(v) case OpARM64EONshiftRO: return rewriteValueARM64_OpARM64EONshiftRO(v) case OpARM64Equal: return rewriteValueARM64_OpARM64Equal(v) case OpARM64FADDD: return rewriteValueARM64_OpARM64FADDD(v) case OpARM64FADDS: return rewriteValueARM64_OpARM64FADDS(v) case OpARM64FCMPD: return rewriteValueARM64_OpARM64FCMPD(v) case OpARM64FCMPS: return rewriteValueARM64_OpARM64FCMPS(v) case OpARM64FMOVDfpgp: return rewriteValueARM64_OpARM64FMOVDfpgp(v) case OpARM64FMOVDgpfp: return rewriteValueARM64_OpARM64FMOVDgpfp(v) case OpARM64FMOVDload: return rewriteValueARM64_OpARM64FMOVDload(v) case OpARM64FMOVDloadidx: return rewriteValueARM64_OpARM64FMOVDloadidx(v) case OpARM64FMOVDloadidx8: return rewriteValueARM64_OpARM64FMOVDloadidx8(v) case OpARM64FMOVDstore: return rewriteValueARM64_OpARM64FMOVDstore(v) case OpARM64FMOVDstoreidx: return rewriteValueARM64_OpARM64FMOVDstoreidx(v) case OpARM64FMOVDstoreidx8: return rewriteValueARM64_OpARM64FMOVDstoreidx8(v) case OpARM64FMOVSload: return rewriteValueARM64_OpARM64FMOVSload(v) case OpARM64FMOVSloadidx: return rewriteValueARM64_OpARM64FMOVSloadidx(v) case OpARM64FMOVSloadidx4: return rewriteValueARM64_OpARM64FMOVSloadidx4(v) case OpARM64FMOVSstore: return rewriteValueARM64_OpARM64FMOVSstore(v) case OpARM64FMOVSstoreidx: return rewriteValueARM64_OpARM64FMOVSstoreidx(v) case OpARM64FMOVSstoreidx4: return rewriteValueARM64_OpARM64FMOVSstoreidx4(v) case OpARM64FMULD: return rewriteValueARM64_OpARM64FMULD(v) case OpARM64FMULS: return rewriteValueARM64_OpARM64FMULS(v) case OpARM64FNEGD: return rewriteValueARM64_OpARM64FNEGD(v) case OpARM64FNEGS: return rewriteValueARM64_OpARM64FNEGS(v) case OpARM64FNMULD: return rewriteValueARM64_OpARM64FNMULD(v) case OpARM64FNMULS: return rewriteValueARM64_OpARM64FNMULS(v) case OpARM64FSUBD: return rewriteValueARM64_OpARM64FSUBD(v) case OpARM64FSUBS: return rewriteValueARM64_OpARM64FSUBS(v) case OpARM64GreaterEqual: return rewriteValueARM64_OpARM64GreaterEqual(v) case OpARM64GreaterEqualF: return rewriteValueARM64_OpARM64GreaterEqualF(v) case OpARM64GreaterEqualNoov: return rewriteValueARM64_OpARM64GreaterEqualNoov(v) case OpARM64GreaterEqualU: return rewriteValueARM64_OpARM64GreaterEqualU(v) case OpARM64GreaterThan: return rewriteValueARM64_OpARM64GreaterThan(v) case OpARM64GreaterThanF: return rewriteValueARM64_OpARM64GreaterThanF(v) case OpARM64GreaterThanU: return rewriteValueARM64_OpARM64GreaterThanU(v) case OpARM64LDP: return rewriteValueARM64_OpARM64LDP(v) case OpARM64LessEqual: return rewriteValueARM64_OpARM64LessEqual(v) case OpARM64LessEqualF: return rewriteValueARM64_OpARM64LessEqualF(v) case OpARM64LessEqualU: return rewriteValueARM64_OpARM64LessEqualU(v) case OpARM64LessThan: return rewriteValueARM64_OpARM64LessThan(v) case OpARM64LessThanF: return rewriteValueARM64_OpARM64LessThanF(v) case OpARM64LessThanNoov: return rewriteValueARM64_OpARM64LessThanNoov(v) case OpARM64LessThanU: return rewriteValueARM64_OpARM64LessThanU(v) case OpARM64MADD: return rewriteValueARM64_OpARM64MADD(v) case OpARM64MADDW: return rewriteValueARM64_OpARM64MADDW(v) case OpARM64MNEG: return rewriteValueARM64_OpARM64MNEG(v) case OpARM64MNEGW: return rewriteValueARM64_OpARM64MNEGW(v) case OpARM64MOD: return rewriteValueARM64_OpARM64MOD(v) case OpARM64MODW: return rewriteValueARM64_OpARM64MODW(v) case OpARM64MOVBUload: return rewriteValueARM64_OpARM64MOVBUload(v) case OpARM64MOVBUloadidx: return rewriteValueARM64_OpARM64MOVBUloadidx(v) case OpARM64MOVBUreg: return rewriteValueARM64_OpARM64MOVBUreg(v) case OpARM64MOVBload: return rewriteValueARM64_OpARM64MOVBload(v) case OpARM64MOVBloadidx: return rewriteValueARM64_OpARM64MOVBloadidx(v) case OpARM64MOVBreg: return rewriteValueARM64_OpARM64MOVBreg(v) case OpARM64MOVBstore: return rewriteValueARM64_OpARM64MOVBstore(v) case OpARM64MOVBstoreidx: return rewriteValueARM64_OpARM64MOVBstoreidx(v) case OpARM64MOVBstorezero: return rewriteValueARM64_OpARM64MOVBstorezero(v) case OpARM64MOVBstorezeroidx: return rewriteValueARM64_OpARM64MOVBstorezeroidx(v) case OpARM64MOVDload: return rewriteValueARM64_OpARM64MOVDload(v) case OpARM64MOVDloadidx: return rewriteValueARM64_OpARM64MOVDloadidx(v) case OpARM64MOVDloadidx8: return rewriteValueARM64_OpARM64MOVDloadidx8(v) case OpARM64MOVDnop: return rewriteValueARM64_OpARM64MOVDnop(v) case OpARM64MOVDreg: return rewriteValueARM64_OpARM64MOVDreg(v) case OpARM64MOVDstore: return rewriteValueARM64_OpARM64MOVDstore(v) case OpARM64MOVDstoreidx: return rewriteValueARM64_OpARM64MOVDstoreidx(v) case OpARM64MOVDstoreidx8: return rewriteValueARM64_OpARM64MOVDstoreidx8(v) case OpARM64MOVDstorezero: return rewriteValueARM64_OpARM64MOVDstorezero(v) case OpARM64MOVDstorezeroidx: return rewriteValueARM64_OpARM64MOVDstorezeroidx(v) case OpARM64MOVDstorezeroidx8: return rewriteValueARM64_OpARM64MOVDstorezeroidx8(v) case OpARM64MOVHUload: return rewriteValueARM64_OpARM64MOVHUload(v) case OpARM64MOVHUloadidx: return rewriteValueARM64_OpARM64MOVHUloadidx(v) case OpARM64MOVHUloadidx2: return rewriteValueARM64_OpARM64MOVHUloadidx2(v) case OpARM64MOVHUreg: return rewriteValueARM64_OpARM64MOVHUreg(v) case OpARM64MOVHload: return rewriteValueARM64_OpARM64MOVHload(v) case OpARM64MOVHloadidx: return rewriteValueARM64_OpARM64MOVHloadidx(v) case OpARM64MOVHloadidx2: return rewriteValueARM64_OpARM64MOVHloadidx2(v) case OpARM64MOVHreg: return rewriteValueARM64_OpARM64MOVHreg(v) case OpARM64MOVHstore: return rewriteValueARM64_OpARM64MOVHstore(v) case OpARM64MOVHstoreidx: return rewriteValueARM64_OpARM64MOVHstoreidx(v) case OpARM64MOVHstoreidx2: return rewriteValueARM64_OpARM64MOVHstoreidx2(v) case OpARM64MOVHstorezero: return rewriteValueARM64_OpARM64MOVHstorezero(v) case OpARM64MOVHstorezeroidx: return rewriteValueARM64_OpARM64MOVHstorezeroidx(v) case OpARM64MOVHstorezeroidx2: return rewriteValueARM64_OpARM64MOVHstorezeroidx2(v) case OpARM64MOVQstorezero: return rewriteValueARM64_OpARM64MOVQstorezero(v) case OpARM64MOVWUload: return rewriteValueARM64_OpARM64MOVWUload(v) case OpARM64MOVWUloadidx: return rewriteValueARM64_OpARM64MOVWUloadidx(v) case OpARM64MOVWUloadidx4: return rewriteValueARM64_OpARM64MOVWUloadidx4(v) case OpARM64MOVWUreg: return rewriteValueARM64_OpARM64MOVWUreg(v) case OpARM64MOVWload: return rewriteValueARM64_OpARM64MOVWload(v) case OpARM64MOVWloadidx: return rewriteValueARM64_OpARM64MOVWloadidx(v) case OpARM64MOVWloadidx4: return rewriteValueARM64_OpARM64MOVWloadidx4(v) case OpARM64MOVWreg: return rewriteValueARM64_OpARM64MOVWreg(v) case OpARM64MOVWstore: return rewriteValueARM64_OpARM64MOVWstore(v) case OpARM64MOVWstoreidx: return rewriteValueARM64_OpARM64MOVWstoreidx(v) case OpARM64MOVWstoreidx4: return rewriteValueARM64_OpARM64MOVWstoreidx4(v) case OpARM64MOVWstorezero: return rewriteValueARM64_OpARM64MOVWstorezero(v) case OpARM64MOVWstorezeroidx: return rewriteValueARM64_OpARM64MOVWstorezeroidx(v) case OpARM64MOVWstorezeroidx4: return rewriteValueARM64_OpARM64MOVWstorezeroidx4(v) case OpARM64MSUB: return rewriteValueARM64_OpARM64MSUB(v) case OpARM64MSUBW: return rewriteValueARM64_OpARM64MSUBW(v) case OpARM64MUL: return rewriteValueARM64_OpARM64MUL(v) case OpARM64MULW: return rewriteValueARM64_OpARM64MULW(v) case OpARM64MVN: return rewriteValueARM64_OpARM64MVN(v) case OpARM64MVNshiftLL: return rewriteValueARM64_OpARM64MVNshiftLL(v) case OpARM64MVNshiftRA: return rewriteValueARM64_OpARM64MVNshiftRA(v) case OpARM64MVNshiftRL: return rewriteValueARM64_OpARM64MVNshiftRL(v) case OpARM64MVNshiftRO: return rewriteValueARM64_OpARM64MVNshiftRO(v) case OpARM64NEG: return rewriteValueARM64_OpARM64NEG(v) case OpARM64NEGshiftLL: return rewriteValueARM64_OpARM64NEGshiftLL(v) case OpARM64NEGshiftRA: return rewriteValueARM64_OpARM64NEGshiftRA(v) case OpARM64NEGshiftRL: return rewriteValueARM64_OpARM64NEGshiftRL(v) case OpARM64NotEqual: return rewriteValueARM64_OpARM64NotEqual(v) case OpARM64OR: return rewriteValueARM64_OpARM64OR(v) case OpARM64ORN: return rewriteValueARM64_OpARM64ORN(v) case OpARM64ORNshiftLL: return rewriteValueARM64_OpARM64ORNshiftLL(v) case OpARM64ORNshiftRA: return rewriteValueARM64_OpARM64ORNshiftRA(v) case OpARM64ORNshiftRL: return rewriteValueARM64_OpARM64ORNshiftRL(v) case OpARM64ORNshiftRO: return rewriteValueARM64_OpARM64ORNshiftRO(v) case OpARM64ORconst: return rewriteValueARM64_OpARM64ORconst(v) case OpARM64ORshiftLL: return rewriteValueARM64_OpARM64ORshiftLL(v) case OpARM64ORshiftRA: return rewriteValueARM64_OpARM64ORshiftRA(v) case OpARM64ORshiftRL: return rewriteValueARM64_OpARM64ORshiftRL(v) case OpARM64ORshiftRO: return rewriteValueARM64_OpARM64ORshiftRO(v) case OpARM64REV: return rewriteValueARM64_OpARM64REV(v) case OpARM64REVW: return rewriteValueARM64_OpARM64REVW(v) case OpARM64ROR: return rewriteValueARM64_OpARM64ROR(v) case OpARM64RORW: return rewriteValueARM64_OpARM64RORW(v) case OpARM64SBCSflags: return rewriteValueARM64_OpARM64SBCSflags(v) case OpARM64SBFX: return rewriteValueARM64_OpARM64SBFX(v) case OpARM64SLL: return rewriteValueARM64_OpARM64SLL(v) case OpARM64SLLconst: return rewriteValueARM64_OpARM64SLLconst(v) case OpARM64SRA: return rewriteValueARM64_OpARM64SRA(v) case OpARM64SRAconst: return rewriteValueARM64_OpARM64SRAconst(v) case OpARM64SRL: return rewriteValueARM64_OpARM64SRL(v) case OpARM64SRLconst: return rewriteValueARM64_OpARM64SRLconst(v) case OpARM64STP: return rewriteValueARM64_OpARM64STP(v) case OpARM64SUB: return rewriteValueARM64_OpARM64SUB(v) case OpARM64SUBconst: return rewriteValueARM64_OpARM64SUBconst(v) case OpARM64SUBshiftLL: return rewriteValueARM64_OpARM64SUBshiftLL(v) case OpARM64SUBshiftRA: return rewriteValueARM64_OpARM64SUBshiftRA(v) case OpARM64SUBshiftRL: return rewriteValueARM64_OpARM64SUBshiftRL(v) case OpARM64TST: return rewriteValueARM64_OpARM64TST(v) case OpARM64TSTW: return rewriteValueARM64_OpARM64TSTW(v) case OpARM64TSTWconst: return rewriteValueARM64_OpARM64TSTWconst(v) case OpARM64TSTconst: return rewriteValueARM64_OpARM64TSTconst(v) case OpARM64TSTshiftLL: return rewriteValueARM64_OpARM64TSTshiftLL(v) case OpARM64TSTshiftRA: return rewriteValueARM64_OpARM64TSTshiftRA(v) case OpARM64TSTshiftRL: return rewriteValueARM64_OpARM64TSTshiftRL(v) case OpARM64TSTshiftRO: return rewriteValueARM64_OpARM64TSTshiftRO(v) case OpARM64UBFIZ: return rewriteValueARM64_OpARM64UBFIZ(v) case OpARM64UBFX: return rewriteValueARM64_OpARM64UBFX(v) case OpARM64UDIV: return rewriteValueARM64_OpARM64UDIV(v) case OpARM64UDIVW: return rewriteValueARM64_OpARM64UDIVW(v) case OpARM64UMOD: return rewriteValueARM64_OpARM64UMOD(v) case OpARM64UMODW: return rewriteValueARM64_OpARM64UMODW(v) case OpARM64XOR: return rewriteValueARM64_OpARM64XOR(v) case OpARM64XORconst: return rewriteValueARM64_OpARM64XORconst(v) case OpARM64XORshiftLL: return rewriteValueARM64_OpARM64XORshiftLL(v) case OpARM64XORshiftRA: return rewriteValueARM64_OpARM64XORshiftRA(v) case OpARM64XORshiftRL: return rewriteValueARM64_OpARM64XORshiftRL(v) case OpARM64XORshiftRO: return rewriteValueARM64_OpARM64XORshiftRO(v) case OpAbs: v.Op = OpARM64FABSD return true case OpAdd16: v.Op = OpARM64ADD return true case OpAdd32: v.Op = OpARM64ADD return true case OpAdd32F: v.Op = OpARM64FADDS return true case OpAdd64: v.Op = OpARM64ADD return true case OpAdd64F: v.Op = OpARM64FADDD return true case OpAdd8: v.Op = OpARM64ADD return true case OpAddPtr: v.Op = OpARM64ADD return true case OpAddr: return rewriteValueARM64_OpAddr(v) case OpAnd16: v.Op = OpARM64AND return true case OpAnd32: v.Op = OpARM64AND return true case OpAnd64: v.Op = OpARM64AND return true case OpAnd8: v.Op = OpARM64AND return true case OpAndB: v.Op = OpARM64AND return true case OpAtomicAdd32: v.Op = OpARM64LoweredAtomicAdd32 return true case OpAtomicAdd32Variant: v.Op = OpARM64LoweredAtomicAdd32Variant return true case OpAtomicAdd64: v.Op = OpARM64LoweredAtomicAdd64 return true case OpAtomicAdd64Variant: v.Op = OpARM64LoweredAtomicAdd64Variant return true case OpAtomicAnd32value: v.Op = OpARM64LoweredAtomicAnd32 return true case OpAtomicAnd32valueVariant: v.Op = OpARM64LoweredAtomicAnd32Variant return true case OpAtomicAnd64value: v.Op = OpARM64LoweredAtomicAnd64 return true case OpAtomicAnd64valueVariant: v.Op = OpARM64LoweredAtomicAnd64Variant return true case OpAtomicAnd8value: v.Op = OpARM64LoweredAtomicAnd8 return true case OpAtomicAnd8valueVariant: v.Op = OpARM64LoweredAtomicAnd8Variant return true case OpAtomicCompareAndSwap32: v.Op = OpARM64LoweredAtomicCas32 return true case OpAtomicCompareAndSwap32Variant: v.Op = OpARM64LoweredAtomicCas32Variant return true case OpAtomicCompareAndSwap64: v.Op = OpARM64LoweredAtomicCas64 return true case OpAtomicCompareAndSwap64Variant: v.Op = OpARM64LoweredAtomicCas64Variant return true case OpAtomicExchange32: v.Op = OpARM64LoweredAtomicExchange32 return true case OpAtomicExchange32Variant: v.Op = OpARM64LoweredAtomicExchange32Variant return true case OpAtomicExchange64: v.Op = OpARM64LoweredAtomicExchange64 return true case OpAtomicExchange64Variant: v.Op = OpARM64LoweredAtomicExchange64Variant return true case OpAtomicExchange8: v.Op = OpARM64LoweredAtomicExchange8 return true case OpAtomicExchange8Variant: v.Op = OpARM64LoweredAtomicExchange8Variant return true case OpAtomicLoad32: v.Op = OpARM64LDARW return true case OpAtomicLoad64: v.Op = OpARM64LDAR return true case OpAtomicLoad8: v.Op = OpARM64LDARB return true case OpAtomicLoadPtr: v.Op = OpARM64LDAR return true case OpAtomicOr32value: v.Op = OpARM64LoweredAtomicOr32 return true case OpAtomicOr32valueVariant: v.Op = OpARM64LoweredAtomicOr32Variant return true case OpAtomicOr64value: v.Op = OpARM64LoweredAtomicOr64 return true case OpAtomicOr64valueVariant: v.Op = OpARM64LoweredAtomicOr64Variant return true case OpAtomicOr8value: v.Op = OpARM64LoweredAtomicOr8 return true case OpAtomicOr8valueVariant: v.Op = OpARM64LoweredAtomicOr8Variant return true case OpAtomicStore32: v.Op = OpARM64STLRW return true case OpAtomicStore64: v.Op = OpARM64STLR return true case OpAtomicStore8: v.Op = OpARM64STLRB return true case OpAtomicStorePtrNoWB: v.Op = OpARM64STLR return true case OpAvg64u: return rewriteValueARM64_OpAvg64u(v) case OpBitLen32: return rewriteValueARM64_OpBitLen32(v) case OpBitLen64: return rewriteValueARM64_OpBitLen64(v) case OpBitRev16: return rewriteValueARM64_OpBitRev16(v) case OpBitRev32: v.Op = OpARM64RBITW return true case OpBitRev64: v.Op = OpARM64RBIT return true case OpBitRev8: return rewriteValueARM64_OpBitRev8(v) case OpBswap16: v.Op = OpARM64REV16W return true case OpBswap32: v.Op = OpARM64REVW return true case OpBswap64: v.Op = OpARM64REV return true case OpCeil: v.Op = OpARM64FRINTPD return true case OpClosureCall: v.Op = OpARM64CALLclosure return true case OpCom16: v.Op = OpARM64MVN return true case OpCom32: v.Op = OpARM64MVN return true case OpCom64: v.Op = OpARM64MVN return true case OpCom8: v.Op = OpARM64MVN return true case OpCondSelect: return rewriteValueARM64_OpCondSelect(v) case OpConst16: return rewriteValueARM64_OpConst16(v) case OpConst32: return rewriteValueARM64_OpConst32(v) case OpConst32F: return rewriteValueARM64_OpConst32F(v) case OpConst64: return rewriteValueARM64_OpConst64(v) case OpConst64F: return rewriteValueARM64_OpConst64F(v) case OpConst8: return rewriteValueARM64_OpConst8(v) case OpConstBool: return rewriteValueARM64_OpConstBool(v) case OpConstNil: return rewriteValueARM64_OpConstNil(v) case OpCtz16: return rewriteValueARM64_OpCtz16(v) case OpCtz16NonZero: v.Op = OpCtz32 return true case OpCtz32: return rewriteValueARM64_OpCtz32(v) case OpCtz32NonZero: v.Op = OpCtz32 return true case OpCtz64: return rewriteValueARM64_OpCtz64(v) case OpCtz64NonZero: v.Op = OpCtz64 return true case OpCtz8: return rewriteValueARM64_OpCtz8(v) case OpCtz8NonZero: v.Op = OpCtz32 return true case OpCvt32Fto32: v.Op = OpARM64FCVTZSSW return true case OpCvt32Fto32U: v.Op = OpARM64FCVTZUSW return true case OpCvt32Fto64: v.Op = OpARM64FCVTZSS return true case OpCvt32Fto64F: v.Op = OpARM64FCVTSD return true case OpCvt32Fto64U: v.Op = OpARM64FCVTZUS return true case OpCvt32Uto32F: v.Op = OpARM64UCVTFWS return true case OpCvt32Uto64F: v.Op = OpARM64UCVTFWD return true case OpCvt32to32F: v.Op = OpARM64SCVTFWS return true case OpCvt32to64F: v.Op = OpARM64SCVTFWD return true case OpCvt64Fto32: v.Op = OpARM64FCVTZSDW return true case OpCvt64Fto32F: v.Op = OpARM64FCVTDS return true case OpCvt64Fto32U: v.Op = OpARM64FCVTZUDW return true case OpCvt64Fto64: v.Op = OpARM64FCVTZSD return true case OpCvt64Fto64U: v.Op = OpARM64FCVTZUD return true case OpCvt64Uto32F: v.Op = OpARM64UCVTFS return true case OpCvt64Uto64F: v.Op = OpARM64UCVTFD return true case OpCvt64to32F: v.Op = OpARM64SCVTFS return true case OpCvt64to64F: v.Op = OpARM64SCVTFD return true case OpCvtBoolToUint8: v.Op = OpCopy return true case OpDiv16: return rewriteValueARM64_OpDiv16(v) case OpDiv16u: return rewriteValueARM64_OpDiv16u(v) case OpDiv32: return rewriteValueARM64_OpDiv32(v) case OpDiv32F: v.Op = OpARM64FDIVS return true case OpDiv32u: v.Op = OpARM64UDIVW return true case OpDiv64: return rewriteValueARM64_OpDiv64(v) case OpDiv64F: v.Op = OpARM64FDIVD return true case OpDiv64u: v.Op = OpARM64UDIV return true case OpDiv8: return rewriteValueARM64_OpDiv8(v) case OpDiv8u: return rewriteValueARM64_OpDiv8u(v) case OpEq16: return rewriteValueARM64_OpEq16(v) case OpEq32: return rewriteValueARM64_OpEq32(v) case OpEq32F: return rewriteValueARM64_OpEq32F(v) case OpEq64: return rewriteValueARM64_OpEq64(v) case OpEq64F: return rewriteValueARM64_OpEq64F(v) case OpEq8: return rewriteValueARM64_OpEq8(v) case OpEqB: return rewriteValueARM64_OpEqB(v) case OpEqPtr: return rewriteValueARM64_OpEqPtr(v) case OpFMA: return rewriteValueARM64_OpFMA(v) case OpFloor: v.Op = OpARM64FRINTMD return true case OpGetCallerPC: v.Op = OpARM64LoweredGetCallerPC return true case OpGetCallerSP: v.Op = OpARM64LoweredGetCallerSP return true case OpGetClosurePtr: v.Op = OpARM64LoweredGetClosurePtr return true case OpHmul32: return rewriteValueARM64_OpHmul32(v) case OpHmul32u: return rewriteValueARM64_OpHmul32u(v) case OpHmul64: v.Op = OpARM64MULH return true case OpHmul64u: v.Op = OpARM64UMULH return true case OpInterCall: v.Op = OpARM64CALLinter return true case OpIsInBounds: return rewriteValueARM64_OpIsInBounds(v) case OpIsNonNil: return rewriteValueARM64_OpIsNonNil(v) case OpIsSliceInBounds: return rewriteValueARM64_OpIsSliceInBounds(v) case OpLeq16: return rewriteValueARM64_OpLeq16(v) case OpLeq16U: return rewriteValueARM64_OpLeq16U(v) case OpLeq32: return rewriteValueARM64_OpLeq32(v) case OpLeq32F: return rewriteValueARM64_OpLeq32F(v) case OpLeq32U: return rewriteValueARM64_OpLeq32U(v) case OpLeq64: return rewriteValueARM64_OpLeq64(v) case OpLeq64F: return rewriteValueARM64_OpLeq64F(v) case OpLeq64U: return rewriteValueARM64_OpLeq64U(v) case OpLeq8: return rewriteValueARM64_OpLeq8(v) case OpLeq8U: return rewriteValueARM64_OpLeq8U(v) case OpLess16: return rewriteValueARM64_OpLess16(v) case OpLess16U: return rewriteValueARM64_OpLess16U(v) case OpLess32: return rewriteValueARM64_OpLess32(v) case OpLess32F: return rewriteValueARM64_OpLess32F(v) case OpLess32U: return rewriteValueARM64_OpLess32U(v) case OpLess64: return rewriteValueARM64_OpLess64(v) case OpLess64F: return rewriteValueARM64_OpLess64F(v) case OpLess64U: return rewriteValueARM64_OpLess64U(v) case OpLess8: return rewriteValueARM64_OpLess8(v) case OpLess8U: return rewriteValueARM64_OpLess8U(v) case OpLoad: return rewriteValueARM64_OpLoad(v) case OpLocalAddr: return rewriteValueARM64_OpLocalAddr(v) case OpLsh16x16: return rewriteValueARM64_OpLsh16x16(v) case OpLsh16x32: return rewriteValueARM64_OpLsh16x32(v) case OpLsh16x64: return rewriteValueARM64_OpLsh16x64(v) case OpLsh16x8: return rewriteValueARM64_OpLsh16x8(v) case OpLsh32x16: return rewriteValueARM64_OpLsh32x16(v) case OpLsh32x32: return rewriteValueARM64_OpLsh32x32(v) case OpLsh32x64: return rewriteValueARM64_OpLsh32x64(v) case OpLsh32x8: return rewriteValueARM64_OpLsh32x8(v) case OpLsh64x16: return rewriteValueARM64_OpLsh64x16(v) case OpLsh64x32: return rewriteValueARM64_OpLsh64x32(v) case OpLsh64x64: return rewriteValueARM64_OpLsh64x64(v) case OpLsh64x8: return rewriteValueARM64_OpLsh64x8(v) case OpLsh8x16: return rewriteValueARM64_OpLsh8x16(v) case OpLsh8x32: return rewriteValueARM64_OpLsh8x32(v) case OpLsh8x64: return rewriteValueARM64_OpLsh8x64(v) case OpLsh8x8: return rewriteValueARM64_OpLsh8x8(v) case OpMax32F: v.Op = OpARM64FMAXS return true case OpMax64F: v.Op = OpARM64FMAXD return true case OpMin32F: v.Op = OpARM64FMINS return true case OpMin64F: v.Op = OpARM64FMIND return true case OpMod16: return rewriteValueARM64_OpMod16(v) case OpMod16u: return rewriteValueARM64_OpMod16u(v) case OpMod32: return rewriteValueARM64_OpMod32(v) case OpMod32u: v.Op = OpARM64UMODW return true case OpMod64: return rewriteValueARM64_OpMod64(v) case OpMod64u: v.Op = OpARM64UMOD return true case OpMod8: return rewriteValueARM64_OpMod8(v) case OpMod8u: return rewriteValueARM64_OpMod8u(v) case OpMove: return rewriteValueARM64_OpMove(v) case OpMul16: v.Op = OpARM64MULW return true case OpMul32: v.Op = OpARM64MULW return true case OpMul32F: v.Op = OpARM64FMULS return true case OpMul64: v.Op = OpARM64MUL return true case OpMul64F: v.Op = OpARM64FMULD return true case OpMul8: v.Op = OpARM64MULW return true case OpNeg16: v.Op = OpARM64NEG return true case OpNeg32: v.Op = OpARM64NEG return true case OpNeg32F: v.Op = OpARM64FNEGS return true case OpNeg64: v.Op = OpARM64NEG return true case OpNeg64F: v.Op = OpARM64FNEGD return true case OpNeg8: v.Op = OpARM64NEG return true case OpNeq16: return rewriteValueARM64_OpNeq16(v) case OpNeq32: return rewriteValueARM64_OpNeq32(v) case OpNeq32F: return rewriteValueARM64_OpNeq32F(v) case OpNeq64: return rewriteValueARM64_OpNeq64(v) case OpNeq64F: return rewriteValueARM64_OpNeq64F(v) case OpNeq8: return rewriteValueARM64_OpNeq8(v) case OpNeqB: v.Op = OpARM64XOR return true case OpNeqPtr: return rewriteValueARM64_OpNeqPtr(v) case OpNilCheck: v.Op = OpARM64LoweredNilCheck return true case OpNot: return rewriteValueARM64_OpNot(v) case OpOffPtr: return rewriteValueARM64_OpOffPtr(v) case OpOr16: v.Op = OpARM64OR return true case OpOr32: v.Op = OpARM64OR return true case OpOr64: v.Op = OpARM64OR return true case OpOr8: v.Op = OpARM64OR return true case OpOrB: v.Op = OpARM64OR return true case OpPanicBounds: return rewriteValueARM64_OpPanicBounds(v) case OpPopCount16: return rewriteValueARM64_OpPopCount16(v) case OpPopCount32: return rewriteValueARM64_OpPopCount32(v) case OpPopCount64: return rewriteValueARM64_OpPopCount64(v) case OpPrefetchCache: return rewriteValueARM64_OpPrefetchCache(v) case OpPrefetchCacheStreamed: return rewriteValueARM64_OpPrefetchCacheStreamed(v) case OpPubBarrier: return rewriteValueARM64_OpPubBarrier(v) case OpRotateLeft16: return rewriteValueARM64_OpRotateLeft16(v) case OpRotateLeft32: return rewriteValueARM64_OpRotateLeft32(v) case OpRotateLeft64: return rewriteValueARM64_OpRotateLeft64(v) case OpRotateLeft8: return rewriteValueARM64_OpRotateLeft8(v) case OpRound: v.Op = OpARM64FRINTAD return true case OpRound32F: v.Op = OpARM64LoweredRound32F return true case OpRound64F: v.Op = OpARM64LoweredRound64F return true case OpRoundToEven: v.Op = OpARM64FRINTND return true case OpRsh16Ux16: return rewriteValueARM64_OpRsh16Ux16(v) case OpRsh16Ux32: return rewriteValueARM64_OpRsh16Ux32(v) case OpRsh16Ux64: return rewriteValueARM64_OpRsh16Ux64(v) case OpRsh16Ux8: return rewriteValueARM64_OpRsh16Ux8(v) case OpRsh16x16: return rewriteValueARM64_OpRsh16x16(v) case OpRsh16x32: return rewriteValueARM64_OpRsh16x32(v) case OpRsh16x64: return rewriteValueARM64_OpRsh16x64(v) case OpRsh16x8: return rewriteValueARM64_OpRsh16x8(v) case OpRsh32Ux16: return rewriteValueARM64_OpRsh32Ux16(v) case OpRsh32Ux32: return rewriteValueARM64_OpRsh32Ux32(v) case OpRsh32Ux64: return rewriteValueARM64_OpRsh32Ux64(v) case OpRsh32Ux8: return rewriteValueARM64_OpRsh32Ux8(v) case OpRsh32x16: return rewriteValueARM64_OpRsh32x16(v) case OpRsh32x32: return rewriteValueARM64_OpRsh32x32(v) case OpRsh32x64: return rewriteValueARM64_OpRsh32x64(v) case OpRsh32x8: return rewriteValueARM64_OpRsh32x8(v) case OpRsh64Ux16: return rewriteValueARM64_OpRsh64Ux16(v) case OpRsh64Ux32: return rewriteValueARM64_OpRsh64Ux32(v) case OpRsh64Ux64: return rewriteValueARM64_OpRsh64Ux64(v) case OpRsh64Ux8: return rewriteValueARM64_OpRsh64Ux8(v) case OpRsh64x16: return rewriteValueARM64_OpRsh64x16(v) case OpRsh64x32: return rewriteValueARM64_OpRsh64x32(v) case OpRsh64x64: return rewriteValueARM64_OpRsh64x64(v) case OpRsh64x8: return rewriteValueARM64_OpRsh64x8(v) case OpRsh8Ux16: return rewriteValueARM64_OpRsh8Ux16(v) case OpRsh8Ux32: return rewriteValueARM64_OpRsh8Ux32(v) case OpRsh8Ux64: return rewriteValueARM64_OpRsh8Ux64(v) case OpRsh8Ux8: return rewriteValueARM64_OpRsh8Ux8(v) case OpRsh8x16: return rewriteValueARM64_OpRsh8x16(v) case OpRsh8x32: return rewriteValueARM64_OpRsh8x32(v) case OpRsh8x64: return rewriteValueARM64_OpRsh8x64(v) case OpRsh8x8: return rewriteValueARM64_OpRsh8x8(v) case OpSelect0: return rewriteValueARM64_OpSelect0(v) case OpSelect1: return rewriteValueARM64_OpSelect1(v) case OpSelectN: return rewriteValueARM64_OpSelectN(v) case OpSignExt16to32: v.Op = OpARM64MOVHreg return true case OpSignExt16to64: v.Op = OpARM64MOVHreg return true case OpSignExt32to64: v.Op = OpARM64MOVWreg return true case OpSignExt8to16: v.Op = OpARM64MOVBreg return true case OpSignExt8to32: v.Op = OpARM64MOVBreg return true case OpSignExt8to64: v.Op = OpARM64MOVBreg return true case OpSlicemask: return rewriteValueARM64_OpSlicemask(v) case OpSqrt: v.Op = OpARM64FSQRTD return true case OpSqrt32: v.Op = OpARM64FSQRTS return true case OpStaticCall: v.Op = OpARM64CALLstatic return true case OpStore: return rewriteValueARM64_OpStore(v) case OpSub16: v.Op = OpARM64SUB return true case OpSub32: v.Op = OpARM64SUB return true case OpSub32F: v.Op = OpARM64FSUBS return true case OpSub64: v.Op = OpARM64SUB return true case OpSub64F: v.Op = OpARM64FSUBD return true case OpSub8: v.Op = OpARM64SUB return true case OpSubPtr: v.Op = OpARM64SUB return true case OpTailCall: v.Op = OpARM64CALLtail return true case OpTrunc: v.Op = OpARM64FRINTZD 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 = OpARM64LoweredWB return true case OpXor16: v.Op = OpARM64XOR return true case OpXor32: v.Op = OpARM64XOR return true case OpXor64: v.Op = OpARM64XOR return true case OpXor8: v.Op = OpARM64XOR return true case OpZero: return rewriteValueARM64_OpZero(v) case OpZeroExt16to32: v.Op = OpARM64MOVHUreg return true case OpZeroExt16to64: v.Op = OpARM64MOVHUreg return true case OpZeroExt32to64: v.Op = OpARM64MOVWUreg return true case OpZeroExt8to16: v.Op = OpARM64MOVBUreg return true case OpZeroExt8to32: v.Op = OpARM64MOVBUreg return true case OpZeroExt8to64: v.Op = OpARM64MOVBUreg return true } return false } func rewriteValueARM64_OpARM64ADCSflags(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (ADCSflags x y (Select1 (ADDSconstflags [-1] (ADCzerocarry c)))) // result: (ADCSflags x y c) for { x := v_0 y := v_1 if v_2.Op != OpSelect1 || v_2.Type != types.TypeFlags { break } v_2_0 := v_2.Args[0] if v_2_0.Op != OpARM64ADDSconstflags || auxIntToInt64(v_2_0.AuxInt) != -1 { break } v_2_0_0 := v_2_0.Args[0] if v_2_0_0.Op != OpARM64ADCzerocarry || v_2_0_0.Type != typ.UInt64 { break } c := v_2_0_0.Args[0] v.reset(OpARM64ADCSflags) v.AddArg3(x, y, c) return true } // match: (ADCSflags x y (Select1 (ADDSconstflags [-1] (MOVDconst [0])))) // result: (ADDSflags x y) for { x := v_0 y := v_1 if v_2.Op != OpSelect1 || v_2.Type != types.TypeFlags { break } v_2_0 := v_2.Args[0] if v_2_0.Op != OpARM64ADDSconstflags || auxIntToInt64(v_2_0.AuxInt) != -1 { break } v_2_0_0 := v_2_0.Args[0] if v_2_0_0.Op != OpARM64MOVDconst || auxIntToInt64(v_2_0_0.AuxInt) != 0 { break } v.reset(OpARM64ADDSflags) v.AddArg2(x, y) return true } return false } func rewriteValueARM64_OpARM64ADD(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (ADD x (MOVDconst [c])) // cond: !t.IsPtr() // result: (ADDconst [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 != OpARM64MOVDconst { continue } t := v_1.Type c := auxIntToInt64(v_1.AuxInt) if !(!t.IsPtr()) { continue } v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } // match: (ADD a l:(MUL x y)) // cond: l.Uses==1 && clobber(l) // result: (MADD a x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { a := v_0 l := v_1 if l.Op != OpARM64MUL { continue } y := l.Args[1] x := l.Args[0] if !(l.Uses == 1 && clobber(l)) { continue } v.reset(OpARM64MADD) v.AddArg3(a, x, y) return true } break } // match: (ADD a l:(MNEG x y)) // cond: l.Uses==1 && clobber(l) // result: (MSUB a x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { a := v_0 l := v_1 if l.Op != OpARM64MNEG { continue } y := l.Args[1] x := l.Args[0] if !(l.Uses == 1 && clobber(l)) { continue } v.reset(OpARM64MSUB) v.AddArg3(a, x, y) return true } break } // match: (ADD a l:(MULW x y)) // cond: v.Type.Size() <= 4 && l.Uses==1 && clobber(l) // result: (MADDW a x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { a := v_0 l := v_1 if l.Op != OpARM64MULW { continue } y := l.Args[1] x := l.Args[0] if !(v.Type.Size() <= 4 && l.Uses == 1 && clobber(l)) { continue } v.reset(OpARM64MADDW) v.AddArg3(a, x, y) return true } break } // match: (ADD a l:(MNEGW x y)) // cond: v.Type.Size() <= 4 && l.Uses==1 && clobber(l) // result: (MSUBW a x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { a := v_0 l := v_1 if l.Op != OpARM64MNEGW { continue } y := l.Args[1] x := l.Args[0] if !(v.Type.Size() <= 4 && l.Uses == 1 && clobber(l)) { continue } v.reset(OpARM64MSUBW) v.AddArg3(a, x, y) return true } break } // match: (ADD x (NEG y)) // result: (SUB 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 != OpARM64NEG { continue } y := v_1.Args[0] v.reset(OpARM64SUB) v.AddArg2(x, y) return true } break } // match: (ADD x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (ADDshiftLL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (ADD x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (ADDshiftRL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ADDshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (ADD x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (ADDshiftRA x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ADDshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } return false } func rewriteValueARM64_OpARM64ADDSflags(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (ADDSflags x (MOVDconst [c])) // result: (ADDSconstflags [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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ADDSconstflags) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } return false } func rewriteValueARM64_OpARM64ADDconst(v *Value) bool { v_0 := v.Args[0] // match: (ADDconst [off1] (MOVDaddr [off2] {sym} ptr)) // cond: is32Bit(off1+int64(off2)) // result: (MOVDaddr [int32(off1)+off2] {sym} ptr) for { off1 := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym := auxToSym(v_0.Aux) ptr := v_0.Args[0] if !(is32Bit(off1 + int64(off2))) { break } v.reset(OpARM64MOVDaddr) v.AuxInt = int32ToAuxInt(int32(off1) + off2) v.Aux = symToAux(sym) v.AddArg(ptr) return true } // match: (ADDconst [c] y) // cond: c < 0 // result: (SUBconst [-c] y) for { c := auxIntToInt64(v.AuxInt) y := v_0 if !(c < 0) { break } v.reset(OpARM64SUBconst) v.AuxInt = int64ToAuxInt(-c) v.AddArg(y) return true } // match: (ADDconst [0] x) // result: x for { if auxIntToInt64(v.AuxInt) != 0 { break } x := v_0 v.copyOf(x) return true } // match: (ADDconst [c] (MOVDconst [d])) // result: (MOVDconst [c+d]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(c + d) return true } // match: (ADDconst [c] (ADDconst [d] x)) // result: (ADDconst [c+d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64ADDconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c + d) v.AddArg(x) return true } // match: (ADDconst [c] (SUBconst [d] x)) // result: (ADDconst [c-d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SUBconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c - d) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64ADDshiftLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (ADDshiftLL (MOVDconst [c]) x [d]) // result: (ADDconst [c] (SLLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ADDshiftLL x (MOVDconst [c]) [d]) // result: (ADDconst x [int64(uint64(c)< [8] (UBFX [armBFAuxInt(8, 8)] x) x) // result: (REV16W x) for { if v.Type != typ.UInt16 || auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64UBFX || v_0.Type != typ.UInt16 || auxIntToArm64BitField(v_0.AuxInt) != armBFAuxInt(8, 8) { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64REV16W) v.AddArg(x) return true } // match: (ADDshiftLL [8] (UBFX [armBFAuxInt(8, 24)] (ANDconst [c1] x)) (ANDconst [c2] x)) // cond: uint32(c1) == 0xff00ff00 && uint32(c2) == 0x00ff00ff // result: (REV16W x) for { if auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64UBFX || auxIntToArm64BitField(v_0.AuxInt) != armBFAuxInt(8, 24) { break } v_0_0 := v_0.Args[0] if v_0_0.Op != OpARM64ANDconst { break } c1 := auxIntToInt64(v_0_0.AuxInt) x := v_0_0.Args[0] if v_1.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_1.AuxInt) if x != v_1.Args[0] || !(uint32(c1) == 0xff00ff00 && uint32(c2) == 0x00ff00ff) { break } v.reset(OpARM64REV16W) v.AddArg(x) return true } // match: (ADDshiftLL [8] (SRLconst [8] (ANDconst [c1] x)) (ANDconst [c2] x)) // cond: (uint64(c1) == 0xff00ff00ff00ff00 && uint64(c2) == 0x00ff00ff00ff00ff) // result: (REV16 x) for { if auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != 8 { break } v_0_0 := v_0.Args[0] if v_0_0.Op != OpARM64ANDconst { break } c1 := auxIntToInt64(v_0_0.AuxInt) x := v_0_0.Args[0] if v_1.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_1.AuxInt) if x != v_1.Args[0] || !(uint64(c1) == 0xff00ff00ff00ff00 && uint64(c2) == 0x00ff00ff00ff00ff) { break } v.reset(OpARM64REV16) v.AddArg(x) return true } // match: (ADDshiftLL [8] (SRLconst [8] (ANDconst [c1] x)) (ANDconst [c2] x)) // cond: (uint64(c1) == 0xff00ff00 && uint64(c2) == 0x00ff00ff) // result: (REV16 (ANDconst [0xffffffff] x)) for { if auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != 8 { break } v_0_0 := v_0.Args[0] if v_0_0.Op != OpARM64ANDconst { break } c1 := auxIntToInt64(v_0_0.AuxInt) x := v_0_0.Args[0] if v_1.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_1.AuxInt) if x != v_1.Args[0] || !(uint64(c1) == 0xff00ff00 && uint64(c2) == 0x00ff00ff) { break } v.reset(OpARM64REV16) v0 := b.NewValue0(v.Pos, OpARM64ANDconst, x.Type) v0.AuxInt = int64ToAuxInt(0xffffffff) v0.AddArg(x) v.AddArg(v0) return true } // match: (ADDshiftLL [c] (SRLconst x [64-c]) x2) // result: (EXTRconst [64-c] x2 x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != 64-c { break } x := v_0.Args[0] x2 := v_1 v.reset(OpARM64EXTRconst) v.AuxInt = int64ToAuxInt(64 - c) v.AddArg2(x2, x) return true } // match: (ADDshiftLL [c] (UBFX [bfc] x) x2) // cond: c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c) // result: (EXTRWconst [32-c] x2 x) for { t := v.Type c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64UBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] x2 := v_1 if !(c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c)) { break } v.reset(OpARM64EXTRWconst) v.AuxInt = int64ToAuxInt(32 - c) v.AddArg2(x2, x) return true } return false } func rewriteValueARM64_OpARM64ADDshiftRA(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (ADDshiftRA (MOVDconst [c]) x [d]) // result: (ADDconst [c] (SRAconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRAconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ADDshiftRA x (MOVDconst [c]) [d]) // result: (ADDconst x [c>>uint64(d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c >> uint64(d)) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64ADDshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (ADDshiftRL (MOVDconst [c]) x [d]) // result: (ADDconst [c] (SRLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ADDshiftRL x (MOVDconst [c]) [d]) // result: (ADDconst x [int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64AND(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (AND x (MOVDconst [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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ANDconst) 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 } // match: (AND x (MVN y)) // result: (BIC 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 != OpARM64MVN { continue } y := v_1.Args[0] v.reset(OpARM64BIC) v.AddArg2(x, y) return true } break } // match: (AND x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (ANDshiftLL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ANDshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (AND x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (ANDshiftRL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ANDshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (AND x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (ANDshiftRA x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ANDshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (AND x0 x1:(RORconst [c] y)) // cond: clobberIfDead(x1) // result: (ANDshiftRO x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64RORconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ANDshiftRO) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } return false } func rewriteValueARM64_OpARM64ANDconst(v *Value) bool { v_0 := v.Args[0] // match: (ANDconst [0] _) // result: (MOVDconst [0]) for { if auxIntToInt64(v.AuxInt) != 0 { break } v.reset(OpARM64MOVDconst) 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] (MOVDconst [d])) // result: (MOVDconst [c&d]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) 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 != OpARM64ANDconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c & d) v.AddArg(x) return true } // match: (ANDconst [c] (MOVWUreg x)) // result: (ANDconst [c&(1<<32-1)] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVWUreg { break } x := v_0.Args[0] v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c & (1<<32 - 1)) v.AddArg(x) return true } // match: (ANDconst [c] (MOVHUreg x)) // result: (ANDconst [c&(1<<16-1)] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVHUreg { break } x := v_0.Args[0] v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c & (1<<16 - 1)) v.AddArg(x) return true } // match: (ANDconst [c] (MOVBUreg x)) // result: (ANDconst [c&(1<<8-1)] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVBUreg { break } x := v_0.Args[0] v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c & (1<<8 - 1)) v.AddArg(x) return true } // match: (ANDconst [ac] (SLLconst [sc] x)) // cond: isARM64BFMask(sc, ac, sc) // result: (UBFIZ [armBFAuxInt(sc, arm64BFWidth(ac, sc))] x) for { ac := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SLLconst { break } sc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(isARM64BFMask(sc, ac, sc)) { break } v.reset(OpARM64UBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(sc, arm64BFWidth(ac, sc))) v.AddArg(x) return true } // match: (ANDconst [ac] (SRLconst [sc] x)) // cond: isARM64BFMask(sc, ac, 0) // result: (UBFX [armBFAuxInt(sc, arm64BFWidth(ac, 0))] x) for { ac := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRLconst { break } sc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(isARM64BFMask(sc, ac, 0)) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(sc, arm64BFWidth(ac, 0))) v.AddArg(x) return true } // match: (ANDconst [c] (UBFX [bfc] x)) // cond: isARM64BFMask(0, c, 0) // result: (UBFX [armBFAuxInt(bfc.lsb(), min(bfc.width(), arm64BFWidth(c, 0)))] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64UBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(isARM64BFMask(0, c, 0)) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(bfc.lsb(), min(bfc.width(), arm64BFWidth(c, 0)))) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64ANDshiftLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (ANDshiftLL (MOVDconst [c]) x [d]) // result: (ANDconst [c] (SLLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ANDshiftLL x (MOVDconst [c]) [d]) // result: (ANDconst x [int64(uint64(c)< x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRAconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ANDshiftRA x (MOVDconst [c]) [d]) // result: (ANDconst x [c>>uint64(d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c >> uint64(d)) v.AddArg(x) return true } // match: (ANDshiftRA y:(SRAconst x [c]) x [c]) // result: y for { c := auxIntToInt64(v.AuxInt) y := v_0 if y.Op != OpARM64SRAconst || auxIntToInt64(y.AuxInt) != c { break } x := y.Args[0] if x != v_1 { break } v.copyOf(y) return true } return false } func rewriteValueARM64_OpARM64ANDshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (ANDshiftRL (MOVDconst [c]) x [d]) // result: (ANDconst [c] (SRLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ANDshiftRL x (MOVDconst [c]) [d]) // result: (ANDconst x [int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } // match: (ANDshiftRL y:(SRLconst x [c]) x [c]) // result: y for { c := auxIntToInt64(v.AuxInt) y := v_0 if y.Op != OpARM64SRLconst || auxIntToInt64(y.AuxInt) != c { break } x := y.Args[0] if x != v_1 { break } v.copyOf(y) return true } return false } func rewriteValueARM64_OpARM64ANDshiftRO(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (ANDshiftRO (MOVDconst [c]) x [d]) // result: (ANDconst [c] (RORconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64RORconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ANDshiftRO x (MOVDconst [c]) [d]) // result: (ANDconst x [rotateRight64(c, d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(rotateRight64(c, d)) v.AddArg(x) return true } // match: (ANDshiftRO y:(RORconst x [c]) x [c]) // result: y for { c := auxIntToInt64(v.AuxInt) y := v_0 if y.Op != OpARM64RORconst || auxIntToInt64(y.AuxInt) != c { break } x := y.Args[0] if x != v_1 { break } v.copyOf(y) return true } return false } func rewriteValueARM64_OpARM64BIC(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (BIC x (MOVDconst [c])) // result: (ANDconst [^c] x) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(^c) v.AddArg(x) return true } // match: (BIC x x) // result: (MOVDconst [0]) for { x := v_0 if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (BIC x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (BICshiftLL x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64BICshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (BIC x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (BICshiftRL x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64BICshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (BIC x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (BICshiftRA x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64BICshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (BIC x0 x1:(RORconst [c] y)) // cond: clobberIfDead(x1) // result: (BICshiftRO x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64RORconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64BICshiftRO) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } return false } func rewriteValueARM64_OpARM64BICshiftLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (BICshiftLL x (MOVDconst [c]) [d]) // result: (ANDconst x [^int64(uint64(c)<>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(^(c >> uint64(d))) v.AddArg(x) return true } // match: (BICshiftRA (SRAconst x [c]) x [c]) // result: (MOVDconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRAconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64BICshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (BICshiftRL x (MOVDconst [c]) [d]) // result: (ANDconst x [^int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(^int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } // match: (BICshiftRL (SRLconst x [c]) x [c]) // result: (MOVDconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64BICshiftRO(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (BICshiftRO x (MOVDconst [c]) [d]) // result: (ANDconst x [^rotateRight64(c, d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(^rotateRight64(c, d)) v.AddArg(x) return true } // match: (BICshiftRO (RORconst x [c]) x [c]) // result: (MOVDconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64RORconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64CMN(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (CMN x (MOVDconst [c])) // result: (CMNconst [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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64CMNconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } // match: (CMN x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (CMNshiftLL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64CMNshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (CMN x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (CMNshiftRL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64CMNshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (CMN x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (CMNshiftRA x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64CMNshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } return false } func rewriteValueARM64_OpARM64CMNW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (CMNW x (MOVDconst [c])) // result: (CMNWconst [int32(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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64CMNWconst) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg(x) return true } break } return false } func rewriteValueARM64_OpARM64CMNWconst(v *Value) bool { v_0 := v.Args[0] // match: (CMNWconst [c] y) // cond: c < 0 && c != -1<<31 // result: (CMPWconst [-c] y) for { c := auxIntToInt32(v.AuxInt) y := v_0 if !(c < 0 && c != -1<<31) { break } v.reset(OpARM64CMPWconst) v.AuxInt = int32ToAuxInt(-c) v.AddArg(y) return true } // match: (CMNWconst (MOVDconst [x]) [y]) // result: (FlagConstant [addFlags32(int32(x),y)]) for { y := auxIntToInt32(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } x := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(addFlags32(int32(x), y)) return true } return false } func rewriteValueARM64_OpARM64CMNconst(v *Value) bool { v_0 := v.Args[0] // match: (CMNconst [c] y) // cond: c < 0 && c != -1<<63 // result: (CMPconst [-c] y) for { c := auxIntToInt64(v.AuxInt) y := v_0 if !(c < 0 && c != -1<<63) { break } v.reset(OpARM64CMPconst) v.AuxInt = int64ToAuxInt(-c) v.AddArg(y) return true } // match: (CMNconst (MOVDconst [x]) [y]) // result: (FlagConstant [addFlags64(x,y)]) for { y := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } x := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(addFlags64(x, y)) return true } return false } func rewriteValueARM64_OpARM64CMNshiftLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (CMNshiftLL (MOVDconst [c]) x [d]) // result: (CMNconst [c] (SLLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64CMNconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (CMNshiftLL x (MOVDconst [c]) [d]) // result: (CMNconst x [int64(uint64(c)< x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64CMNconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRAconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (CMNshiftRA x (MOVDconst [c]) [d]) // result: (CMNconst x [c>>uint64(d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64CMNconst) v.AuxInt = int64ToAuxInt(c >> uint64(d)) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64CMNshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (CMNshiftRL (MOVDconst [c]) x [d]) // result: (CMNconst [c] (SRLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64CMNconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (CMNshiftRL x (MOVDconst [c]) [d]) // result: (CMNconst x [int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64CMNconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64CMP(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (CMP x (MOVDconst [c])) // result: (CMPconst [c] x) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64CMPconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } // match: (CMP (MOVDconst [c]) x) // result: (InvertFlags (CMPconst [c] x)) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(x) v.AddArg(v0) return true } // match: (CMP x y) // cond: canonLessThan(x,y) // result: (InvertFlags (CMP y x)) for { x := v_0 y := v_1 if !(canonLessThan(x, y)) { break } v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(y, x) v.AddArg(v0) return true } // match: (CMP x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (CMPshiftLL x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64CMPshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (CMP x0:(SLLconst [c] y) x1) // cond: clobberIfDead(x0) // result: (InvertFlags (CMPshiftLL x1 y [c])) for { x0 := v_0 if x0.Op != OpARM64SLLconst { break } c := auxIntToInt64(x0.AuxInt) y := x0.Args[0] x1 := v_1 if !(clobberIfDead(x0)) { break } v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMPshiftLL, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg2(x1, y) v.AddArg(v0) return true } // match: (CMP x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (CMPshiftRL x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64CMPshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (CMP x0:(SRLconst [c] y) x1) // cond: clobberIfDead(x0) // result: (InvertFlags (CMPshiftRL x1 y [c])) for { x0 := v_0 if x0.Op != OpARM64SRLconst { break } c := auxIntToInt64(x0.AuxInt) y := x0.Args[0] x1 := v_1 if !(clobberIfDead(x0)) { break } v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMPshiftRL, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg2(x1, y) v.AddArg(v0) return true } // match: (CMP x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (CMPshiftRA x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64CMPshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (CMP x0:(SRAconst [c] y) x1) // cond: clobberIfDead(x0) // result: (InvertFlags (CMPshiftRA x1 y [c])) for { x0 := v_0 if x0.Op != OpARM64SRAconst { break } c := auxIntToInt64(x0.AuxInt) y := x0.Args[0] x1 := v_1 if !(clobberIfDead(x0)) { break } v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMPshiftRA, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg2(x1, y) v.AddArg(v0) return true } return false } func rewriteValueARM64_OpARM64CMPW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (CMPW x (MOVDconst [c])) // result: (CMPWconst [int32(c)] x) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64CMPWconst) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg(x) return true } // match: (CMPW (MOVDconst [c]) x) // result: (InvertFlags (CMPWconst [int32(c)] x)) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMPWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(x) v.AddArg(v0) return true } // match: (CMPW x y) // cond: canonLessThan(x,y) // result: (InvertFlags (CMPW y x)) for { x := v_0 y := v_1 if !(canonLessThan(x, y)) { break } v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v0.AddArg2(y, x) v.AddArg(v0) return true } return false } func rewriteValueARM64_OpARM64CMPWconst(v *Value) bool { v_0 := v.Args[0] // match: (CMPWconst [c] y) // cond: c < 0 && c != -1<<31 // result: (CMNWconst [-c] y) for { c := auxIntToInt32(v.AuxInt) y := v_0 if !(c < 0 && c != -1<<31) { break } v.reset(OpARM64CMNWconst) v.AuxInt = int32ToAuxInt(-c) v.AddArg(y) return true } // match: (CMPWconst (MOVDconst [x]) [y]) // result: (FlagConstant [subFlags32(int32(x),y)]) for { y := auxIntToInt32(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } x := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(subFlags32(int32(x), y)) return true } // match: (CMPWconst (MOVBUreg _) [c]) // cond: 0xff < c // result: (FlagConstant [subFlags64(0,1)]) for { c := auxIntToInt32(v.AuxInt) if v_0.Op != OpARM64MOVBUreg || !(0xff < c) { break } v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(subFlags64(0, 1)) return true } // match: (CMPWconst (MOVHUreg _) [c]) // cond: 0xffff < c // result: (FlagConstant [subFlags64(0,1)]) for { c := auxIntToInt32(v.AuxInt) if v_0.Op != OpARM64MOVHUreg || !(0xffff < c) { break } v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(subFlags64(0, 1)) return true } return false } func rewriteValueARM64_OpARM64CMPconst(v *Value) bool { v_0 := v.Args[0] // match: (CMPconst [c] y) // cond: c < 0 && c != -1<<63 // result: (CMNconst [-c] y) for { c := auxIntToInt64(v.AuxInt) y := v_0 if !(c < 0 && c != -1<<63) { break } v.reset(OpARM64CMNconst) v.AuxInt = int64ToAuxInt(-c) v.AddArg(y) return true } // match: (CMPconst (MOVDconst [x]) [y]) // result: (FlagConstant [subFlags64(x,y)]) for { y := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } x := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(subFlags64(x, y)) return true } // match: (CMPconst (MOVBUreg _) [c]) // cond: 0xff < c // result: (FlagConstant [subFlags64(0,1)]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVBUreg || !(0xff < c) { break } v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(subFlags64(0, 1)) return true } // match: (CMPconst (MOVHUreg _) [c]) // cond: 0xffff < c // result: (FlagConstant [subFlags64(0,1)]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVHUreg || !(0xffff < c) { break } v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(subFlags64(0, 1)) return true } // match: (CMPconst (MOVWUreg _) [c]) // cond: 0xffffffff < c // result: (FlagConstant [subFlags64(0,1)]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVWUreg || !(0xffffffff < c) { break } v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(subFlags64(0, 1)) return true } // match: (CMPconst (ANDconst _ [m]) [n]) // cond: 0 <= m && m < n // result: (FlagConstant [subFlags64(0,1)]) for { n := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64ANDconst { break } m := auxIntToInt64(v_0.AuxInt) if !(0 <= m && m < n) { break } v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(subFlags64(0, 1)) return true } // match: (CMPconst (SRLconst _ [c]) [n]) // cond: 0 <= n && 0 < c && c <= 63 && (1< x [d]))) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v1 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v1.AuxInt = int64ToAuxInt(d) v1.AddArg(x) v0.AddArg(v1) v.AddArg(v0) return true } // match: (CMPshiftLL x (MOVDconst [c]) [d]) // result: (CMPconst x [int64(uint64(c)< x [d]))) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v1 := b.NewValue0(v.Pos, OpARM64SRAconst, x.Type) v1.AuxInt = int64ToAuxInt(d) v1.AddArg(x) v0.AddArg(v1) v.AddArg(v0) return true } // match: (CMPshiftRA x (MOVDconst [c]) [d]) // result: (CMPconst x [c>>uint64(d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64CMPconst) v.AuxInt = int64ToAuxInt(c >> uint64(d)) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64CMPshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (CMPshiftRL (MOVDconst [c]) x [d]) // result: (InvertFlags (CMPconst [c] (SRLconst x [d]))) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v1 := b.NewValue0(v.Pos, OpARM64SRLconst, x.Type) v1.AuxInt = int64ToAuxInt(d) v1.AddArg(x) v0.AddArg(v1) v.AddArg(v0) return true } // match: (CMPshiftRL x (MOVDconst [c]) [d]) // result: (CMPconst x [int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64CMPconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64CSEL(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (CSEL [cc] (MOVDconst [-1]) (MOVDconst [0]) flag) // result: (CSETM [cc] flag) for { cc := auxIntToOp(v.AuxInt) if v_0.Op != OpARM64MOVDconst || auxIntToInt64(v_0.AuxInt) != -1 || v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { break } flag := v_2 v.reset(OpARM64CSETM) v.AuxInt = opToAuxInt(cc) v.AddArg(flag) return true } // match: (CSEL [cc] (MOVDconst [0]) (MOVDconst [-1]) flag) // result: (CSETM [arm64Negate(cc)] flag) for { cc := auxIntToOp(v.AuxInt) if v_0.Op != OpARM64MOVDconst || auxIntToInt64(v_0.AuxInt) != 0 || v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != -1 { break } flag := v_2 v.reset(OpARM64CSETM) v.AuxInt = opToAuxInt(arm64Negate(cc)) v.AddArg(flag) return true } // match: (CSEL [cc] x (MOVDconst [0]) flag) // result: (CSEL0 [cc] x flag) for { cc := auxIntToOp(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { break } flag := v_2 v.reset(OpARM64CSEL0) v.AuxInt = opToAuxInt(cc) v.AddArg2(x, flag) return true } // match: (CSEL [cc] (MOVDconst [0]) y flag) // result: (CSEL0 [arm64Negate(cc)] y flag) for { cc := auxIntToOp(v.AuxInt) if v_0.Op != OpARM64MOVDconst || auxIntToInt64(v_0.AuxInt) != 0 { break } y := v_1 flag := v_2 v.reset(OpARM64CSEL0) v.AuxInt = opToAuxInt(arm64Negate(cc)) v.AddArg2(y, flag) return true } // match: (CSEL [cc] x (ADDconst [1] a) flag) // result: (CSINC [cc] x a flag) for { cc := auxIntToOp(v.AuxInt) x := v_0 if v_1.Op != OpARM64ADDconst || auxIntToInt64(v_1.AuxInt) != 1 { break } a := v_1.Args[0] flag := v_2 v.reset(OpARM64CSINC) v.AuxInt = opToAuxInt(cc) v.AddArg3(x, a, flag) return true } // match: (CSEL [cc] (ADDconst [1] a) x flag) // result: (CSINC [arm64Negate(cc)] x a flag) for { cc := auxIntToOp(v.AuxInt) if v_0.Op != OpARM64ADDconst || auxIntToInt64(v_0.AuxInt) != 1 { break } a := v_0.Args[0] x := v_1 flag := v_2 v.reset(OpARM64CSINC) v.AuxInt = opToAuxInt(arm64Negate(cc)) v.AddArg3(x, a, flag) return true } // match: (CSEL [cc] x (MVN a) flag) // result: (CSINV [cc] x a flag) for { cc := auxIntToOp(v.AuxInt) x := v_0 if v_1.Op != OpARM64MVN { break } a := v_1.Args[0] flag := v_2 v.reset(OpARM64CSINV) v.AuxInt = opToAuxInt(cc) v.AddArg3(x, a, flag) return true } // match: (CSEL [cc] (MVN a) x flag) // result: (CSINV [arm64Negate(cc)] x a flag) for { cc := auxIntToOp(v.AuxInt) if v_0.Op != OpARM64MVN { break } a := v_0.Args[0] x := v_1 flag := v_2 v.reset(OpARM64CSINV) v.AuxInt = opToAuxInt(arm64Negate(cc)) v.AddArg3(x, a, flag) return true } // match: (CSEL [cc] x (NEG a) flag) // result: (CSNEG [cc] x a flag) for { cc := auxIntToOp(v.AuxInt) x := v_0 if v_1.Op != OpARM64NEG { break } a := v_1.Args[0] flag := v_2 v.reset(OpARM64CSNEG) v.AuxInt = opToAuxInt(cc) v.AddArg3(x, a, flag) return true } // match: (CSEL [cc] (NEG a) x flag) // result: (CSNEG [arm64Negate(cc)] x a flag) for { cc := auxIntToOp(v.AuxInt) if v_0.Op != OpARM64NEG { break } a := v_0.Args[0] x := v_1 flag := v_2 v.reset(OpARM64CSNEG) v.AuxInt = opToAuxInt(arm64Negate(cc)) v.AddArg3(x, a, flag) return true } // match: (CSEL [cc] x y (InvertFlags cmp)) // result: (CSEL [arm64Invert(cc)] x y cmp) for { cc := auxIntToOp(v.AuxInt) x := v_0 y := v_1 if v_2.Op != OpARM64InvertFlags { break } cmp := v_2.Args[0] v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(arm64Invert(cc)) v.AddArg3(x, y, cmp) return true } // match: (CSEL [cc] x _ flag) // cond: ccARM64Eval(cc, flag) > 0 // result: x for { cc := auxIntToOp(v.AuxInt) x := v_0 flag := v_2 if !(ccARM64Eval(cc, flag) > 0) { break } v.copyOf(x) return true } // match: (CSEL [cc] _ y flag) // cond: ccARM64Eval(cc, flag) < 0 // result: y for { cc := auxIntToOp(v.AuxInt) y := v_1 flag := v_2 if !(ccARM64Eval(cc, flag) < 0) { break } v.copyOf(y) return true } // match: (CSEL [cc] x y (CMPWconst [0] boolval)) // cond: cc == OpARM64NotEqual && flagArg(boolval) != nil // result: (CSEL [boolval.Op] x y flagArg(boolval)) for { cc := auxIntToOp(v.AuxInt) x := v_0 y := v_1 if v_2.Op != OpARM64CMPWconst || auxIntToInt32(v_2.AuxInt) != 0 { break } boolval := v_2.Args[0] if !(cc == OpARM64NotEqual && flagArg(boolval) != nil) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(boolval.Op) v.AddArg3(x, y, flagArg(boolval)) return true } // match: (CSEL [cc] x y (CMPWconst [0] boolval)) // cond: cc == OpARM64Equal && flagArg(boolval) != nil // result: (CSEL [arm64Negate(boolval.Op)] x y flagArg(boolval)) for { cc := auxIntToOp(v.AuxInt) x := v_0 y := v_1 if v_2.Op != OpARM64CMPWconst || auxIntToInt32(v_2.AuxInt) != 0 { break } boolval := v_2.Args[0] if !(cc == OpARM64Equal && flagArg(boolval) != nil) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(arm64Negate(boolval.Op)) v.AddArg3(x, y, flagArg(boolval)) return true } return false } func rewriteValueARM64_OpARM64CSEL0(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (CSEL0 [cc] x (InvertFlags cmp)) // result: (CSEL0 [arm64Invert(cc)] x cmp) for { cc := auxIntToOp(v.AuxInt) x := v_0 if v_1.Op != OpARM64InvertFlags { break } cmp := v_1.Args[0] v.reset(OpARM64CSEL0) v.AuxInt = opToAuxInt(arm64Invert(cc)) v.AddArg2(x, cmp) return true } // match: (CSEL0 [cc] x flag) // cond: ccARM64Eval(cc, flag) > 0 // result: x for { cc := auxIntToOp(v.AuxInt) x := v_0 flag := v_1 if !(ccARM64Eval(cc, flag) > 0) { break } v.copyOf(x) return true } // match: (CSEL0 [cc] _ flag) // cond: ccARM64Eval(cc, flag) < 0 // result: (MOVDconst [0]) for { cc := auxIntToOp(v.AuxInt) flag := v_1 if !(ccARM64Eval(cc, flag) < 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (CSEL0 [cc] x (CMPWconst [0] boolval)) // cond: cc == OpARM64NotEqual && flagArg(boolval) != nil // result: (CSEL0 [boolval.Op] x flagArg(boolval)) for { cc := auxIntToOp(v.AuxInt) x := v_0 if v_1.Op != OpARM64CMPWconst || auxIntToInt32(v_1.AuxInt) != 0 { break } boolval := v_1.Args[0] if !(cc == OpARM64NotEqual && flagArg(boolval) != nil) { break } v.reset(OpARM64CSEL0) v.AuxInt = opToAuxInt(boolval.Op) v.AddArg2(x, flagArg(boolval)) return true } // match: (CSEL0 [cc] x (CMPWconst [0] boolval)) // cond: cc == OpARM64Equal && flagArg(boolval) != nil // result: (CSEL0 [arm64Negate(boolval.Op)] x flagArg(boolval)) for { cc := auxIntToOp(v.AuxInt) x := v_0 if v_1.Op != OpARM64CMPWconst || auxIntToInt32(v_1.AuxInt) != 0 { break } boolval := v_1.Args[0] if !(cc == OpARM64Equal && flagArg(boolval) != nil) { break } v.reset(OpARM64CSEL0) v.AuxInt = opToAuxInt(arm64Negate(boolval.Op)) v.AddArg2(x, flagArg(boolval)) return true } return false } func rewriteValueARM64_OpARM64CSETM(v *Value) bool { v_0 := v.Args[0] // match: (CSETM [cc] (InvertFlags cmp)) // result: (CSETM [arm64Invert(cc)] cmp) for { cc := auxIntToOp(v.AuxInt) if v_0.Op != OpARM64InvertFlags { break } cmp := v_0.Args[0] v.reset(OpARM64CSETM) v.AuxInt = opToAuxInt(arm64Invert(cc)) v.AddArg(cmp) return true } // match: (CSETM [cc] flag) // cond: ccARM64Eval(cc, flag) > 0 // result: (MOVDconst [-1]) for { cc := auxIntToOp(v.AuxInt) flag := v_0 if !(ccARM64Eval(cc, flag) > 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-1) return true } // match: (CSETM [cc] flag) // cond: ccARM64Eval(cc, flag) < 0 // result: (MOVDconst [0]) for { cc := auxIntToOp(v.AuxInt) flag := v_0 if !(ccARM64Eval(cc, flag) < 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64CSINC(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (CSINC [cc] x y (InvertFlags cmp)) // result: (CSINC [arm64Invert(cc)] x y cmp) for { cc := auxIntToOp(v.AuxInt) x := v_0 y := v_1 if v_2.Op != OpARM64InvertFlags { break } cmp := v_2.Args[0] v.reset(OpARM64CSINC) v.AuxInt = opToAuxInt(arm64Invert(cc)) v.AddArg3(x, y, cmp) return true } // match: (CSINC [cc] x _ flag) // cond: ccARM64Eval(cc, flag) > 0 // result: x for { cc := auxIntToOp(v.AuxInt) x := v_0 flag := v_2 if !(ccARM64Eval(cc, flag) > 0) { break } v.copyOf(x) return true } // match: (CSINC [cc] _ y flag) // cond: ccARM64Eval(cc, flag) < 0 // result: (ADDconst [1] y) for { cc := auxIntToOp(v.AuxInt) y := v_1 flag := v_2 if !(ccARM64Eval(cc, flag) < 0) { break } v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(1) v.AddArg(y) return true } return false } func rewriteValueARM64_OpARM64CSINV(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (CSINV [cc] x y (InvertFlags cmp)) // result: (CSINV [arm64Invert(cc)] x y cmp) for { cc := auxIntToOp(v.AuxInt) x := v_0 y := v_1 if v_2.Op != OpARM64InvertFlags { break } cmp := v_2.Args[0] v.reset(OpARM64CSINV) v.AuxInt = opToAuxInt(arm64Invert(cc)) v.AddArg3(x, y, cmp) return true } // match: (CSINV [cc] x _ flag) // cond: ccARM64Eval(cc, flag) > 0 // result: x for { cc := auxIntToOp(v.AuxInt) x := v_0 flag := v_2 if !(ccARM64Eval(cc, flag) > 0) { break } v.copyOf(x) return true } // match: (CSINV [cc] _ y flag) // cond: ccARM64Eval(cc, flag) < 0 // result: (Not y) for { cc := auxIntToOp(v.AuxInt) y := v_1 flag := v_2 if !(ccARM64Eval(cc, flag) < 0) { break } v.reset(OpNot) v.AddArg(y) return true } return false } func rewriteValueARM64_OpARM64CSNEG(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (CSNEG [cc] x y (InvertFlags cmp)) // result: (CSNEG [arm64Invert(cc)] x y cmp) for { cc := auxIntToOp(v.AuxInt) x := v_0 y := v_1 if v_2.Op != OpARM64InvertFlags { break } cmp := v_2.Args[0] v.reset(OpARM64CSNEG) v.AuxInt = opToAuxInt(arm64Invert(cc)) v.AddArg3(x, y, cmp) return true } // match: (CSNEG [cc] x _ flag) // cond: ccARM64Eval(cc, flag) > 0 // result: x for { cc := auxIntToOp(v.AuxInt) x := v_0 flag := v_2 if !(ccARM64Eval(cc, flag) > 0) { break } v.copyOf(x) return true } // match: (CSNEG [cc] _ y flag) // cond: ccARM64Eval(cc, flag) < 0 // result: (NEG y) for { cc := auxIntToOp(v.AuxInt) y := v_1 flag := v_2 if !(ccARM64Eval(cc, flag) < 0) { break } v.reset(OpARM64NEG) v.AddArg(y) return true } return false } func rewriteValueARM64_OpARM64DIV(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (DIV (MOVDconst [c]) (MOVDconst [d])) // cond: d != 0 // result: (MOVDconst [c/d]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_1.AuxInt) if !(d != 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(c / d) return true } return false } func rewriteValueARM64_OpARM64DIVW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (DIVW (MOVDconst [c]) (MOVDconst [d])) // cond: d != 0 // result: (MOVDconst [int64(uint32(int32(c)/int32(d)))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_1.AuxInt) if !(d != 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint32(int32(c) / int32(d)))) return true } return false } func rewriteValueARM64_OpARM64EON(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (EON x (MOVDconst [c])) // result: (XORconst [^c] x) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(^c) v.AddArg(x) return true } // match: (EON x x) // result: (MOVDconst [-1]) for { x := v_0 if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-1) return true } // match: (EON x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (EONshiftLL x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64EONshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (EON x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (EONshiftRL x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64EONshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (EON x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (EONshiftRA x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64EONshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (EON x0 x1:(RORconst [c] y)) // cond: clobberIfDead(x1) // result: (EONshiftRO x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64RORconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64EONshiftRO) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } return false } func rewriteValueARM64_OpARM64EONshiftLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (EONshiftLL x (MOVDconst [c]) [d]) // result: (XORconst x [^int64(uint64(c)<>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(^(c >> uint64(d))) v.AddArg(x) return true } // match: (EONshiftRA (SRAconst x [c]) x [c]) // result: (MOVDconst [-1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRAconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-1) return true } return false } func rewriteValueARM64_OpARM64EONshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (EONshiftRL x (MOVDconst [c]) [d]) // result: (XORconst x [^int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(^int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } // match: (EONshiftRL (SRLconst x [c]) x [c]) // result: (MOVDconst [-1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-1) return true } return false } func rewriteValueARM64_OpARM64EONshiftRO(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (EONshiftRO x (MOVDconst [c]) [d]) // result: (XORconst x [^rotateRight64(c, d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(^rotateRight64(c, d)) v.AddArg(x) return true } // match: (EONshiftRO (RORconst x [c]) x [c]) // result: (MOVDconst [-1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64RORconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-1) return true } return false } func rewriteValueARM64_OpARM64Equal(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (Equal (CMPconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (Equal (TST x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (Equal (CMPWconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (Equal (TSTWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (Equal (CMPWconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (Equal (TSTW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (Equal (CMPconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (Equal (TSTconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (Equal (CMP x z:(NEG y))) // cond: z.Uses == 1 // result: (Equal (CMN x y)) for { if v_0.Op != OpARM64CMP { break } _ = v_0.Args[1] x := v_0.Args[0] z := v_0.Args[1] if z.Op != OpARM64NEG { break } y := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (Equal (CMPW x z:(NEG y))) // cond: z.Uses == 1 // result: (Equal (CMNW x y)) for { if v_0.Op != OpARM64CMPW { break } _ = v_0.Args[1] x := v_0.Args[0] z := v_0.Args[1] if z.Op != OpARM64NEG { break } y := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (Equal (CMPconst [0] x:(ADDconst [c] y))) // cond: x.Uses == 1 // result: (Equal (CMNconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (Equal (CMPWconst [0] x:(ADDconst [c] y))) // cond: x.Uses == 1 // result: (Equal (CMNWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (Equal (CMPconst [0] z:(ADD x y))) // cond: z.Uses == 1 // result: (Equal (CMN x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (Equal (CMPWconst [0] z:(ADD x y))) // cond: z.Uses == 1 // result: (Equal (CMNW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (Equal (CMPconst [0] z:(MADD a x y))) // cond: z.Uses == 1 // result: (Equal (CMN a (MUL x y))) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (Equal (CMPconst [0] z:(MSUB a x y))) // cond: z.Uses == 1 // result: (Equal (CMP a (MUL x y))) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (Equal (CMPWconst [0] z:(MADDW a x y))) // cond: z.Uses == 1 // result: (Equal (CMNW a (MULW x y))) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (Equal (CMPWconst [0] z:(MSUBW a x y))) // cond: z.Uses == 1 // result: (Equal (CMPW a (MULW x y))) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (Equal (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.eq())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.eq())) return true } // match: (Equal (InvertFlags x)) // result: (Equal x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64Equal) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64FADDD(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (FADDD a (FMULD x y)) // cond: a.Block.Func.useFMA(v) // result: (FMADDD a x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { a := v_0 if v_1.Op != OpARM64FMULD { continue } y := v_1.Args[1] x := v_1.Args[0] if !(a.Block.Func.useFMA(v)) { continue } v.reset(OpARM64FMADDD) v.AddArg3(a, x, y) return true } break } // match: (FADDD a (FNMULD x y)) // cond: a.Block.Func.useFMA(v) // result: (FMSUBD a x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { a := v_0 if v_1.Op != OpARM64FNMULD { continue } y := v_1.Args[1] x := v_1.Args[0] if !(a.Block.Func.useFMA(v)) { continue } v.reset(OpARM64FMSUBD) v.AddArg3(a, x, y) return true } break } return false } func rewriteValueARM64_OpARM64FADDS(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (FADDS a (FMULS x y)) // cond: a.Block.Func.useFMA(v) // result: (FMADDS a x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { a := v_0 if v_1.Op != OpARM64FMULS { continue } y := v_1.Args[1] x := v_1.Args[0] if !(a.Block.Func.useFMA(v)) { continue } v.reset(OpARM64FMADDS) v.AddArg3(a, x, y) return true } break } // match: (FADDS a (FNMULS x y)) // cond: a.Block.Func.useFMA(v) // result: (FMSUBS a x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { a := v_0 if v_1.Op != OpARM64FNMULS { continue } y := v_1.Args[1] x := v_1.Args[0] if !(a.Block.Func.useFMA(v)) { continue } v.reset(OpARM64FMSUBS) v.AddArg3(a, x, y) return true } break } return false } func rewriteValueARM64_OpARM64FCMPD(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (FCMPD x (FMOVDconst [0])) // result: (FCMPD0 x) for { x := v_0 if v_1.Op != OpARM64FMOVDconst || auxIntToFloat64(v_1.AuxInt) != 0 { break } v.reset(OpARM64FCMPD0) v.AddArg(x) return true } // match: (FCMPD (FMOVDconst [0]) x) // result: (InvertFlags (FCMPD0 x)) for { if v_0.Op != OpARM64FMOVDconst || auxIntToFloat64(v_0.AuxInt) != 0 { break } x := v_1 v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64FCMPD0, types.TypeFlags) v0.AddArg(x) v.AddArg(v0) return true } return false } func rewriteValueARM64_OpARM64FCMPS(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (FCMPS x (FMOVSconst [0])) // result: (FCMPS0 x) for { x := v_0 if v_1.Op != OpARM64FMOVSconst || auxIntToFloat64(v_1.AuxInt) != 0 { break } v.reset(OpARM64FCMPS0) v.AddArg(x) return true } // match: (FCMPS (FMOVSconst [0]) x) // result: (InvertFlags (FCMPS0 x)) for { if v_0.Op != OpARM64FMOVSconst || auxIntToFloat64(v_0.AuxInt) != 0 { break } x := v_1 v.reset(OpARM64InvertFlags) v0 := b.NewValue0(v.Pos, OpARM64FCMPS0, types.TypeFlags) v0.AddArg(x) v.AddArg(v0) return true } return false } func rewriteValueARM64_OpARM64FMOVDfpgp(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (FMOVDfpgp (Arg [off] {sym})) // result: @b.Func.Entry (Arg [off] {sym}) for { t := v.Type if v_0.Op != OpArg { break } off := auxIntToInt32(v_0.AuxInt) sym := auxToSym(v_0.Aux) b = b.Func.Entry v0 := b.NewValue0(v.Pos, OpArg, t) v.copyOf(v0) v0.AuxInt = int32ToAuxInt(off) v0.Aux = symToAux(sym) return true } return false } func rewriteValueARM64_OpARM64FMOVDgpfp(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (FMOVDgpfp (Arg [off] {sym})) // result: @b.Func.Entry (Arg [off] {sym}) for { t := v.Type if v_0.Op != OpArg { break } off := auxIntToInt32(v_0.AuxInt) sym := auxToSym(v_0.Aux) b = b.Func.Entry v0 := b.NewValue0(v.Pos, OpArg, t) v.copyOf(v0) v0.AuxInt = int32ToAuxInt(off) v0.Aux = symToAux(sym) return true } return false } func rewriteValueARM64_OpARM64FMOVDload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (FMOVDload [off] {sym} ptr (MOVDstore [off] {sym} ptr val _)) // result: (FMOVDgpfp val) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVDstore || 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(OpARM64FMOVDgpfp) v.AddArg(val) return true } // match: (FMOVDload [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (FMOVDload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64FMOVDload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (FMOVDload [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (FMOVDloadidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64FMOVDloadidx) v.AddArg3(ptr, idx, mem) return true } // match: (FMOVDload [off] {sym} (ADDshiftLL [3] ptr idx) mem) // cond: off == 0 && sym == nil // result: (FMOVDloadidx8 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64FMOVDloadidx8) v.AddArg3(ptr, idx, mem) return true } // match: (FMOVDload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (FMOVDload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64FMOVDload) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVDloadidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMOVDloadidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (FMOVDload [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64FMOVDload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (FMOVDloadidx (MOVDconst [c]) ptr mem) // cond: is32Bit(c) // result: (FMOVDload [int32(c)] ptr mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) ptr := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64FMOVDload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (FMOVDloadidx ptr (SLLconst [3] idx) mem) // result: (FMOVDloadidx8 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 3 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64FMOVDloadidx8) v.AddArg3(ptr, idx, mem) return true } // match: (FMOVDloadidx (SLLconst [3] idx) ptr mem) // result: (FMOVDloadidx8 ptr idx mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[0] ptr := v_1 mem := v_2 v.reset(OpARM64FMOVDloadidx8) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVDloadidx8(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMOVDloadidx8 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<3) // result: (FMOVDload ptr [int32(c)<<3] mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 3)) { break } v.reset(OpARM64FMOVDload) v.AuxInt = int32ToAuxInt(int32(c) << 3) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVDstore(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: (FMOVDstore [off] {sym} ptr (FMOVDgpfp 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 != OpARM64FMOVDgpfp { break } val := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (FMOVDstore [off1] {sym} (ADDconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (FMOVDstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64FMOVDstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (FMOVDstore [off] {sym} (ADD ptr idx) val mem) // cond: off == 0 && sym == nil // result: (FMOVDstoreidx ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64FMOVDstoreidx) v.AddArg4(ptr, idx, val, mem) return true } // match: (FMOVDstore [off] {sym} (ADDshiftLL [3] ptr idx) val mem) // cond: off == 0 && sym == nil // result: (FMOVDstoreidx8 ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64FMOVDstoreidx8) v.AddArg4(ptr, idx, val, mem) return true } // match: (FMOVDstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (FMOVDstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64FMOVDstore) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVDstoreidx(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMOVDstoreidx ptr (MOVDconst [c]) val mem) // cond: is32Bit(c) // result: (FMOVDstore [int32(c)] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64FMOVDstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(ptr, val, mem) return true } // match: (FMOVDstoreidx (MOVDconst [c]) idx val mem) // cond: is32Bit(c) // result: (FMOVDstore [int32(c)] idx val mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64FMOVDstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(idx, val, mem) return true } // match: (FMOVDstoreidx ptr (SLLconst [3] idx) val mem) // result: (FMOVDstoreidx8 ptr idx val mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 3 { break } idx := v_1.Args[0] val := v_2 mem := v_3 v.reset(OpARM64FMOVDstoreidx8) v.AddArg4(ptr, idx, val, mem) return true } // match: (FMOVDstoreidx (SLLconst [3] idx) ptr val mem) // result: (FMOVDstoreidx8 ptr idx val mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[0] ptr := v_1 val := v_2 mem := v_3 v.reset(OpARM64FMOVDstoreidx8) v.AddArg4(ptr, idx, val, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVDstoreidx8(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMOVDstoreidx8 ptr (MOVDconst [c]) val mem) // cond: is32Bit(c<<3) // result: (FMOVDstore [int32(c)<<3] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c << 3)) { break } v.reset(OpARM64FMOVDstore) v.AuxInt = int32ToAuxInt(int32(c) << 3) v.AddArg3(ptr, val, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVSload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (FMOVSload [off] {sym} ptr (MOVWstore [off] {sym} ptr val _)) // result: (FMOVSgpfp val) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVWstore || 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(OpARM64FMOVSgpfp) v.AddArg(val) return true } // match: (FMOVSload [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (FMOVSload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64FMOVSload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (FMOVSload [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (FMOVSloadidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64FMOVSloadidx) v.AddArg3(ptr, idx, mem) return true } // match: (FMOVSload [off] {sym} (ADDshiftLL [2] ptr idx) mem) // cond: off == 0 && sym == nil // result: (FMOVSloadidx4 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64FMOVSloadidx4) v.AddArg3(ptr, idx, mem) return true } // match: (FMOVSload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (FMOVSload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64FMOVSload) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVSloadidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMOVSloadidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (FMOVSload [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64FMOVSload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (FMOVSloadidx (MOVDconst [c]) ptr mem) // cond: is32Bit(c) // result: (FMOVSload [int32(c)] ptr mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) ptr := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64FMOVSload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (FMOVSloadidx ptr (SLLconst [2] idx) mem) // result: (FMOVSloadidx4 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 2 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64FMOVSloadidx4) v.AddArg3(ptr, idx, mem) return true } // match: (FMOVSloadidx (SLLconst [2] idx) ptr mem) // result: (FMOVSloadidx4 ptr idx mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[0] ptr := v_1 mem := v_2 v.reset(OpARM64FMOVSloadidx4) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVSloadidx4(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMOVSloadidx4 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<2) // result: (FMOVSload ptr [int32(c)<<2] mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 2)) { break } v.reset(OpARM64FMOVSload) v.AuxInt = int32ToAuxInt(int32(c) << 2) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVSstore(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: (FMOVSstore [off] {sym} ptr (FMOVSgpfp 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 != OpARM64FMOVSgpfp { break } val := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (FMOVSstore [off1] {sym} (ADDconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (FMOVSstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64FMOVSstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (FMOVSstore [off] {sym} (ADD ptr idx) val mem) // cond: off == 0 && sym == nil // result: (FMOVSstoreidx ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64FMOVSstoreidx) v.AddArg4(ptr, idx, val, mem) return true } // match: (FMOVSstore [off] {sym} (ADDshiftLL [2] ptr idx) val mem) // cond: off == 0 && sym == nil // result: (FMOVSstoreidx4 ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64FMOVSstoreidx4) v.AddArg4(ptr, idx, val, mem) return true } // match: (FMOVSstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (FMOVSstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64FMOVSstore) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVSstoreidx(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMOVSstoreidx ptr (MOVDconst [c]) val mem) // cond: is32Bit(c) // result: (FMOVSstore [int32(c)] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64FMOVSstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(ptr, val, mem) return true } // match: (FMOVSstoreidx (MOVDconst [c]) idx val mem) // cond: is32Bit(c) // result: (FMOVSstore [int32(c)] idx val mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64FMOVSstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(idx, val, mem) return true } // match: (FMOVSstoreidx ptr (SLLconst [2] idx) val mem) // result: (FMOVSstoreidx4 ptr idx val mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 2 { break } idx := v_1.Args[0] val := v_2 mem := v_3 v.reset(OpARM64FMOVSstoreidx4) v.AddArg4(ptr, idx, val, mem) return true } // match: (FMOVSstoreidx (SLLconst [2] idx) ptr val mem) // result: (FMOVSstoreidx4 ptr idx val mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[0] ptr := v_1 val := v_2 mem := v_3 v.reset(OpARM64FMOVSstoreidx4) v.AddArg4(ptr, idx, val, mem) return true } return false } func rewriteValueARM64_OpARM64FMOVSstoreidx4(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMOVSstoreidx4 ptr (MOVDconst [c]) val mem) // cond: is32Bit(c<<2) // result: (FMOVSstore [int32(c)<<2] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c << 2)) { break } v.reset(OpARM64FMOVSstore) v.AuxInt = int32ToAuxInt(int32(c) << 2) v.AddArg3(ptr, val, mem) return true } return false } func rewriteValueARM64_OpARM64FMULD(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMULD (FNEGD x) y) // result: (FNMULD x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64FNEGD { continue } x := v_0.Args[0] y := v_1 v.reset(OpARM64FNMULD) v.AddArg2(x, y) return true } break } return false } func rewriteValueARM64_OpARM64FMULS(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMULS (FNEGS x) y) // result: (FNMULS x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64FNEGS { continue } x := v_0.Args[0] y := v_1 v.reset(OpARM64FNMULS) v.AddArg2(x, y) return true } break } return false } func rewriteValueARM64_OpARM64FNEGD(v *Value) bool { v_0 := v.Args[0] // match: (FNEGD (FMULD x y)) // result: (FNMULD x y) for { if v_0.Op != OpARM64FMULD { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64FNMULD) v.AddArg2(x, y) return true } // match: (FNEGD (FNMULD x y)) // result: (FMULD x y) for { if v_0.Op != OpARM64FNMULD { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64FMULD) v.AddArg2(x, y) return true } return false } func rewriteValueARM64_OpARM64FNEGS(v *Value) bool { v_0 := v.Args[0] // match: (FNEGS (FMULS x y)) // result: (FNMULS x y) for { if v_0.Op != OpARM64FMULS { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64FNMULS) v.AddArg2(x, y) return true } // match: (FNEGS (FNMULS x y)) // result: (FMULS x y) for { if v_0.Op != OpARM64FNMULS { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64FMULS) v.AddArg2(x, y) return true } return false } func rewriteValueARM64_OpARM64FNMULD(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (FNMULD (FNEGD x) y) // result: (FMULD x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64FNEGD { continue } x := v_0.Args[0] y := v_1 v.reset(OpARM64FMULD) v.AddArg2(x, y) return true } break } return false } func rewriteValueARM64_OpARM64FNMULS(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (FNMULS (FNEGS x) y) // result: (FMULS x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64FNEGS { continue } x := v_0.Args[0] y := v_1 v.reset(OpARM64FMULS) v.AddArg2(x, y) return true } break } return false } func rewriteValueARM64_OpARM64FSUBD(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (FSUBD a (FMULD x y)) // cond: a.Block.Func.useFMA(v) // result: (FMSUBD a x y) for { a := v_0 if v_1.Op != OpARM64FMULD { break } y := v_1.Args[1] x := v_1.Args[0] if !(a.Block.Func.useFMA(v)) { break } v.reset(OpARM64FMSUBD) v.AddArg3(a, x, y) return true } // match: (FSUBD (FMULD x y) a) // cond: a.Block.Func.useFMA(v) // result: (FNMSUBD a x y) for { if v_0.Op != OpARM64FMULD { break } y := v_0.Args[1] x := v_0.Args[0] a := v_1 if !(a.Block.Func.useFMA(v)) { break } v.reset(OpARM64FNMSUBD) v.AddArg3(a, x, y) return true } // match: (FSUBD a (FNMULD x y)) // cond: a.Block.Func.useFMA(v) // result: (FMADDD a x y) for { a := v_0 if v_1.Op != OpARM64FNMULD { break } y := v_1.Args[1] x := v_1.Args[0] if !(a.Block.Func.useFMA(v)) { break } v.reset(OpARM64FMADDD) v.AddArg3(a, x, y) return true } // match: (FSUBD (FNMULD x y) a) // cond: a.Block.Func.useFMA(v) // result: (FNMADDD a x y) for { if v_0.Op != OpARM64FNMULD { break } y := v_0.Args[1] x := v_0.Args[0] a := v_1 if !(a.Block.Func.useFMA(v)) { break } v.reset(OpARM64FNMADDD) v.AddArg3(a, x, y) return true } return false } func rewriteValueARM64_OpARM64FSUBS(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (FSUBS a (FMULS x y)) // cond: a.Block.Func.useFMA(v) // result: (FMSUBS a x y) for { a := v_0 if v_1.Op != OpARM64FMULS { break } y := v_1.Args[1] x := v_1.Args[0] if !(a.Block.Func.useFMA(v)) { break } v.reset(OpARM64FMSUBS) v.AddArg3(a, x, y) return true } // match: (FSUBS (FMULS x y) a) // cond: a.Block.Func.useFMA(v) // result: (FNMSUBS a x y) for { if v_0.Op != OpARM64FMULS { break } y := v_0.Args[1] x := v_0.Args[0] a := v_1 if !(a.Block.Func.useFMA(v)) { break } v.reset(OpARM64FNMSUBS) v.AddArg3(a, x, y) return true } // match: (FSUBS a (FNMULS x y)) // cond: a.Block.Func.useFMA(v) // result: (FMADDS a x y) for { a := v_0 if v_1.Op != OpARM64FNMULS { break } y := v_1.Args[1] x := v_1.Args[0] if !(a.Block.Func.useFMA(v)) { break } v.reset(OpARM64FMADDS) v.AddArg3(a, x, y) return true } // match: (FSUBS (FNMULS x y) a) // cond: a.Block.Func.useFMA(v) // result: (FNMADDS a x y) for { if v_0.Op != OpARM64FNMULS { break } y := v_0.Args[1] x := v_0.Args[0] a := v_1 if !(a.Block.Func.useFMA(v)) { break } v.reset(OpARM64FNMADDS) v.AddArg3(a, x, y) return true } return false } func rewriteValueARM64_OpARM64GreaterEqual(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (GreaterEqual (CMPconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (GreaterEqual (TST x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterEqual) v0 := b.NewValue0(v.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (GreaterEqual (CMPWconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (GreaterEqual (TSTWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64GreaterEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (GreaterEqual (CMPWconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (GreaterEqual (TSTW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (GreaterEqual (CMPconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (GreaterEqual (TSTconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64GreaterEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (GreaterEqual (CMPconst [0] x:(ADDconst [c] y))) // cond: x.Uses == 1 // result: (GreaterEqualNoov (CMNconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64GreaterEqualNoov) v0 := b.NewValue0(v.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (GreaterEqual (CMPWconst [0] x:(ADDconst [c] y))) // cond: x.Uses == 1 // result: (GreaterEqualNoov (CMNWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64GreaterEqualNoov) v0 := b.NewValue0(v.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (GreaterEqual (CMPconst [0] z:(ADD x y))) // cond: z.Uses == 1 // result: (GreaterEqualNoov (CMN x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterEqualNoov) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (GreaterEqual (CMPWconst [0] z:(ADD x y))) // cond: z.Uses == 1 // result: (GreaterEqualNoov (CMNW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterEqualNoov) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (GreaterEqual (CMPconst [0] z:(MADD a x y))) // cond: z.Uses == 1 // result: (GreaterEqualNoov (CMN a (MUL x y))) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterEqualNoov) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (GreaterEqual (CMPconst [0] z:(MSUB a x y))) // cond: z.Uses == 1 // result: (GreaterEqualNoov (CMP a (MUL x y))) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterEqualNoov) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (GreaterEqual (CMPWconst [0] z:(MADDW a x y))) // cond: z.Uses == 1 // result: (GreaterEqualNoov (CMNW a (MULW x y))) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterEqualNoov) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (GreaterEqual (CMPWconst [0] z:(MSUBW a x y))) // cond: z.Uses == 1 // result: (GreaterEqualNoov (CMPW a (MULW x y))) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterEqualNoov) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (GreaterEqual (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.ge())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.ge())) return true } // match: (GreaterEqual (InvertFlags x)) // result: (LessEqual x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64LessEqual) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64GreaterEqualF(v *Value) bool { v_0 := v.Args[0] // match: (GreaterEqualF (InvertFlags x)) // result: (LessEqualF x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64LessEqualF) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64GreaterEqualNoov(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (GreaterEqualNoov (InvertFlags x)) // result: (CSINC [OpARM64NotEqual] (LessThanNoov x) (MOVDconst [0]) x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64CSINC) v.AuxInt = opToAuxInt(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64LessThanNoov, typ.Bool) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(0) v.AddArg3(v0, v1, x) return true } return false } func rewriteValueARM64_OpARM64GreaterEqualU(v *Value) bool { v_0 := v.Args[0] // match: (GreaterEqualU (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.uge())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.uge())) return true } // match: (GreaterEqualU (InvertFlags x)) // result: (LessEqualU x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64LessEqualU) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64GreaterThan(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (GreaterThan (CMPconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (GreaterThan (TST x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterThan) v0 := b.NewValue0(v.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (GreaterThan (CMPWconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (GreaterThan (TSTWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64GreaterThan) v0 := b.NewValue0(v.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (GreaterThan (CMPWconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (GreaterThan (TSTW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64GreaterThan) v0 := b.NewValue0(v.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (GreaterThan (CMPconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (GreaterThan (TSTconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64GreaterThan) v0 := b.NewValue0(v.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (GreaterThan (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.gt())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.gt())) return true } // match: (GreaterThan (InvertFlags x)) // result: (LessThan x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64LessThan) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64GreaterThanF(v *Value) bool { v_0 := v.Args[0] // match: (GreaterThanF (InvertFlags x)) // result: (LessThanF x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64LessThanF) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64GreaterThanU(v *Value) bool { v_0 := v.Args[0] // match: (GreaterThanU (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.ugt())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.ugt())) return true } // match: (GreaterThanU (InvertFlags x)) // result: (LessThanU x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64LessThanU) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64LDP(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (LDP [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (LDP [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64LDP) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (LDP [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (LDP [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64LDP) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64LessEqual(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (LessEqual (CMPconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (LessEqual (TST x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64LessEqual) v0 := b.NewValue0(v.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (LessEqual (CMPWconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (LessEqual (TSTWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64LessEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (LessEqual (CMPWconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (LessEqual (TSTW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64LessEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (LessEqual (CMPconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (LessEqual (TSTconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64LessEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (LessEqual (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.le())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.le())) return true } // match: (LessEqual (InvertFlags x)) // result: (GreaterEqual x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64GreaterEqual) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64LessEqualF(v *Value) bool { v_0 := v.Args[0] // match: (LessEqualF (InvertFlags x)) // result: (GreaterEqualF x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64GreaterEqualF) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64LessEqualU(v *Value) bool { v_0 := v.Args[0] // match: (LessEqualU (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.ule())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.ule())) return true } // match: (LessEqualU (InvertFlags x)) // result: (GreaterEqualU x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64GreaterEqualU) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64LessThan(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (LessThan (CMPconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (LessThan (TST x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64LessThan) v0 := b.NewValue0(v.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (LessThan (CMPWconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (LessThan (TSTWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64LessThan) v0 := b.NewValue0(v.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (LessThan (CMPWconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (LessThan (TSTW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64LessThan) v0 := b.NewValue0(v.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (LessThan (CMPconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (LessThan (TSTconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64LessThan) v0 := b.NewValue0(v.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (LessThan (CMPconst [0] x:(ADDconst [c] y))) // cond: x.Uses == 1 // result: (LessThanNoov (CMNconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64LessThanNoov) v0 := b.NewValue0(v.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (LessThan (CMPWconst [0] x:(ADDconst [c] y))) // cond: x.Uses == 1 // result: (LessThanNoov (CMNWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64LessThanNoov) v0 := b.NewValue0(v.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (LessThan (CMPconst [0] z:(ADD x y))) // cond: z.Uses == 1 // result: (LessThanNoov (CMN x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64LessThanNoov) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (LessThan (CMPWconst [0] z:(ADD x y))) // cond: z.Uses == 1 // result: (LessThanNoov (CMNW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64LessThanNoov) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (LessThan (CMPconst [0] z:(MADD a x y))) // cond: z.Uses == 1 // result: (LessThanNoov (CMN a (MUL x y))) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64LessThanNoov) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (LessThan (CMPconst [0] z:(MSUB a x y))) // cond: z.Uses == 1 // result: (LessThanNoov (CMP a (MUL x y))) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64LessThanNoov) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (LessThan (CMPWconst [0] z:(MADDW a x y))) // cond: z.Uses == 1 // result: (LessThanNoov (CMNW a (MULW x y))) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64LessThanNoov) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (LessThan (CMPWconst [0] z:(MSUBW a x y))) // cond: z.Uses == 1 // result: (LessThanNoov (CMPW a (MULW x y))) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64LessThanNoov) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (LessThan (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.lt())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.lt())) return true } // match: (LessThan (InvertFlags x)) // result: (GreaterThan x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64GreaterThan) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64LessThanF(v *Value) bool { v_0 := v.Args[0] // match: (LessThanF (InvertFlags x)) // result: (GreaterThanF x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64GreaterThanF) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64LessThanNoov(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (LessThanNoov (InvertFlags x)) // result: (CSEL0 [OpARM64NotEqual] (GreaterEqualNoov x) x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64CSEL0) v.AuxInt = opToAuxInt(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64GreaterEqualNoov, typ.Bool) v0.AddArg(x) v.AddArg2(v0, x) return true } return false } func rewriteValueARM64_OpARM64LessThanU(v *Value) bool { v_0 := v.Args[0] // match: (LessThanU (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.ult())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.ult())) return true } // match: (LessThanU (InvertFlags x)) // result: (GreaterThanU x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64GreaterThanU) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64MADD(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (MADD a x (MOVDconst [-1])) // result: (SUB a x) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != -1 { break } v.reset(OpARM64SUB) v.AddArg2(a, x) return true } // match: (MADD a _ (MOVDconst [0])) // result: a for { a := v_0 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } v.copyOf(a) return true } // match: (MADD a x (MOVDconst [1])) // result: (ADD a x) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 1 { break } v.reset(OpARM64ADD) v.AddArg2(a, x) return true } // match: (MADD a x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (ADDshiftLL a x [log64(c)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c)) v.AddArg2(a, x) return true } // match: (MADD a x (MOVDconst [c])) // cond: isPowerOfTwo(c-1) && c>=3 // result: (ADD a (ADDshiftLL x x [log64(c-1)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c-1) && c >= 3) { break } v.reset(OpARM64ADD) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c - 1)) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a x (MOVDconst [c])) // cond: isPowerOfTwo(c+1) && c>=7 // result: (SUB a (SUBshiftLL x x [log64(c+1)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c+1) && c >= 7) { break } v.reset(OpARM64SUB) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c + 1)) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a x (MOVDconst [c])) // cond: c%3 == 0 && isPowerOfTwo(c/3) // result: (SUBshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%3 == 0 && isPowerOfTwo(c/3)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 3)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a x (MOVDconst [c])) // cond: c%5 == 0 && isPowerOfTwo(c/5) // result: (ADDshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%5 == 0 && isPowerOfTwo(c/5)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 5)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a x (MOVDconst [c])) // cond: c%7 == 0 && isPowerOfTwo(c/7) // result: (SUBshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%7 == 0 && isPowerOfTwo(c/7)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 7)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a x (MOVDconst [c])) // cond: c%9 == 0 && isPowerOfTwo(c/9) // result: (ADDshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%9 == 0 && isPowerOfTwo(c/9)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 9)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a (MOVDconst [-1]) x) // result: (SUB a x) for { a := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != -1 { break } x := v_2 v.reset(OpARM64SUB) v.AddArg2(a, x) return true } // match: (MADD a (MOVDconst [0]) _) // result: a for { a := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { break } v.copyOf(a) return true } // match: (MADD a (MOVDconst [1]) x) // result: (ADD a x) for { a := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { break } x := v_2 v.reset(OpARM64ADD) v.AddArg2(a, x) return true } // match: (MADD a (MOVDconst [c]) x) // cond: isPowerOfTwo(c) // result: (ADDshiftLL a x [log64(c)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c)) v.AddArg2(a, x) return true } // match: (MADD a (MOVDconst [c]) x) // cond: isPowerOfTwo(c-1) && c>=3 // result: (ADD a (ADDshiftLL x x [log64(c-1)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c-1) && c >= 3) { break } v.reset(OpARM64ADD) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c - 1)) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a (MOVDconst [c]) x) // cond: isPowerOfTwo(c+1) && c>=7 // result: (SUB a (SUBshiftLL x x [log64(c+1)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c+1) && c >= 7) { break } v.reset(OpARM64SUB) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c + 1)) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a (MOVDconst [c]) x) // cond: c%3 == 0 && isPowerOfTwo(c/3) // result: (SUBshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%3 == 0 && isPowerOfTwo(c/3)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 3)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a (MOVDconst [c]) x) // cond: c%5 == 0 && isPowerOfTwo(c/5) // result: (ADDshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%5 == 0 && isPowerOfTwo(c/5)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 5)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a (MOVDconst [c]) x) // cond: c%7 == 0 && isPowerOfTwo(c/7) // result: (SUBshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%7 == 0 && isPowerOfTwo(c/7)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 7)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD a (MOVDconst [c]) x) // cond: c%9 == 0 && isPowerOfTwo(c/9) // result: (ADDshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%9 == 0 && isPowerOfTwo(c/9)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 9)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MADD (MOVDconst [c]) x y) // result: (ADDconst [c] (MUL x y)) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 y := v_2 v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64MUL, x.Type) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (MADD a (MOVDconst [c]) (MOVDconst [d])) // result: (ADDconst [c*d] a) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if v_2.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_2.AuxInt) v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c * d) v.AddArg(a) return true } return false } func rewriteValueARM64_OpARM64MADDW(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (MADDW a x (MOVDconst [c])) // cond: int32(c)==-1 // result: (MOVWUreg (SUB a x)) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(int32(c) == -1) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUB, a.Type) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MADDW a _ (MOVDconst [c])) // cond: int32(c)==0 // result: (MOVWUreg a) for { a := v_0 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(int32(c) == 0) { break } v.reset(OpARM64MOVWUreg) v.AddArg(a) return true } // match: (MADDW a x (MOVDconst [c])) // cond: int32(c)==1 // result: (MOVWUreg (ADD a x)) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(int32(c) == 1) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADD, a.Type) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MADDW a x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (MOVWUreg (ADDshiftLL a x [log64(c)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c)) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MADDW a x (MOVDconst [c])) // cond: isPowerOfTwo(c-1) && int32(c)>=3 // result: (MOVWUreg (ADD a (ADDshiftLL x x [log64(c-1)]))) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c-1) && int32(c) >= 3) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADD, a.Type) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c - 1)) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a x (MOVDconst [c])) // cond: isPowerOfTwo(c+1) && int32(c)>=7 // result: (MOVWUreg (SUB a (SUBshiftLL x x [log64(c+1)]))) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c+1) && int32(c) >= 7) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUB, a.Type) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c + 1)) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a x (MOVDconst [c])) // cond: c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c) // result: (MOVWUreg (SUBshiftLL a (SUBshiftLL x x [2]) [log64(c/3)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 3)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a x (MOVDconst [c])) // cond: c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c) // result: (MOVWUreg (ADDshiftLL a (ADDshiftLL x x [2]) [log64(c/5)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 5)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a x (MOVDconst [c])) // cond: c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c) // result: (MOVWUreg (SUBshiftLL a (SUBshiftLL x x [3]) [log64(c/7)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 7)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a x (MOVDconst [c])) // cond: c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c) // result: (MOVWUreg (ADDshiftLL a (ADDshiftLL x x [3]) [log64(c/9)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 9)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) x) // cond: int32(c)==-1 // result: (MOVWUreg (SUB a x)) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(int32(c) == -1) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUB, a.Type) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) _) // cond: int32(c)==0 // result: (MOVWUreg a) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if !(int32(c) == 0) { break } v.reset(OpARM64MOVWUreg) v.AddArg(a) return true } // match: (MADDW a (MOVDconst [c]) x) // cond: int32(c)==1 // result: (MOVWUreg (ADD a x)) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(int32(c) == 1) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADD, a.Type) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) x) // cond: isPowerOfTwo(c) // result: (MOVWUreg (ADDshiftLL a x [log64(c)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c)) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) x) // cond: isPowerOfTwo(c-1) && int32(c)>=3 // result: (MOVWUreg (ADD a (ADDshiftLL x x [log64(c-1)]))) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c-1) && int32(c) >= 3) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADD, a.Type) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c - 1)) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) x) // cond: isPowerOfTwo(c+1) && int32(c)>=7 // result: (MOVWUreg (SUB a (SUBshiftLL x x [log64(c+1)]))) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c+1) && int32(c) >= 7) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUB, a.Type) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c + 1)) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) x) // cond: c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c) // result: (MOVWUreg (SUBshiftLL a (SUBshiftLL x x [2]) [log64(c/3)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 3)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) x) // cond: c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c) // result: (MOVWUreg (ADDshiftLL a (ADDshiftLL x x [2]) [log64(c/5)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 5)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) x) // cond: c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c) // result: (MOVWUreg (SUBshiftLL a (SUBshiftLL x x [3]) [log64(c/7)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 7)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) x) // cond: c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c) // result: (MOVWUreg (ADDshiftLL a (ADDshiftLL x x [3]) [log64(c/9)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 9)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MADDW (MOVDconst [c]) x y) // result: (MOVWUreg (ADDconst [c] (MULW x y))) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 y := v_2 v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDconst, x.Type) v0.AuxInt = int64ToAuxInt(c) v1 := b.NewValue0(v.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg(v1) v.AddArg(v0) return true } // match: (MADDW a (MOVDconst [c]) (MOVDconst [d])) // result: (MOVWUreg (ADDconst [c*d] a)) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if v_2.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_2.AuxInt) v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDconst, a.Type) v0.AuxInt = int64ToAuxInt(c * d) v0.AddArg(a) v.AddArg(v0) return true } return false } func rewriteValueARM64_OpARM64MNEG(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (MNEG x (MOVDconst [-1])) // result: 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 != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != -1 { continue } v.copyOf(x) return true } break } // match: (MNEG _ (MOVDconst [0])) // result: (MOVDconst [0]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { continue } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } break } // match: (MNEG x (MOVDconst [1])) // result: (NEG 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 != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { continue } v.reset(OpARM64NEG) v.AddArg(x) return true } break } // match: (MNEG x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (NEG (SLLconst [log64(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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c)) { continue } v.reset(OpARM64NEG) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c)) v0.AddArg(x) v.AddArg(v0) return true } break } // match: (MNEG x (MOVDconst [c])) // cond: isPowerOfTwo(c-1) && c >= 3 // result: (NEG (ADDshiftLL x x [log64(c-1)])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c-1) && c >= 3) { continue } v.reset(OpARM64NEG) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c - 1)) v0.AddArg2(x, x) v.AddArg(v0) return true } break } // match: (MNEG x (MOVDconst [c])) // cond: isPowerOfTwo(c+1) && c >= 7 // result: (NEG (ADDshiftLL (NEG x) x [log64(c+1)])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c+1) && c >= 7) { continue } v.reset(OpARM64NEG) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c + 1)) v1 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v1.AddArg(x) v0.AddArg2(v1, x) v.AddArg(v0) return true } break } // match: (MNEG x (MOVDconst [c])) // cond: c%3 == 0 && isPowerOfTwo(c/3) // result: (SLLconst [log64(c/3)] (SUBshiftLL x x [2])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%3 == 0 && isPowerOfTwo(c/3)) { continue } v.reset(OpARM64SLLconst) v.Type = x.Type v.AuxInt = int64ToAuxInt(log64(c / 3)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg(v0) return true } break } // match: (MNEG x (MOVDconst [c])) // cond: c%5 == 0 && isPowerOfTwo(c/5) // result: (NEG (SLLconst [log64(c/5)] (ADDshiftLL x x [2]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%5 == 0 && isPowerOfTwo(c/5)) { continue } v.reset(OpARM64NEG) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c / 5)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MNEG x (MOVDconst [c])) // cond: c%7 == 0 && isPowerOfTwo(c/7) // result: (SLLconst [log64(c/7)] (SUBshiftLL x x [3])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%7 == 0 && isPowerOfTwo(c/7)) { continue } v.reset(OpARM64SLLconst) v.Type = x.Type v.AuxInt = int64ToAuxInt(log64(c / 7)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg(v0) return true } break } // match: (MNEG x (MOVDconst [c])) // cond: c%9 == 0 && isPowerOfTwo(c/9) // result: (NEG (SLLconst [log64(c/9)] (ADDshiftLL x x [3]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%9 == 0 && isPowerOfTwo(c/9)) { continue } v.reset(OpARM64NEG) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c / 9)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MNEG (MOVDconst [c]) (MOVDconst [d])) // result: (MOVDconst [-c*d]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { continue } d := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-c * d) return true } break } return false } func rewriteValueARM64_OpARM64MNEGW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (MNEGW x (MOVDconst [c])) // cond: int32(c)==-1 // result: (MOVWUreg 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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(int32(c) == -1) { continue } v.reset(OpARM64MOVWUreg) v.AddArg(x) return true } break } // match: (MNEGW _ (MOVDconst [c])) // cond: int32(c)==0 // result: (MOVDconst [0]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(int32(c) == 0) { continue } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } break } // match: (MNEGW x (MOVDconst [c])) // cond: int32(c)==1 // result: (MOVWUreg (NEG 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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(int32(c) == 1) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v0.AddArg(x) v.AddArg(v0) return true } break } // match: (MNEGW x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (NEG (SLLconst [log64(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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c)) { continue } v.reset(OpARM64NEG) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c)) v0.AddArg(x) v.AddArg(v0) return true } break } // match: (MNEGW x (MOVDconst [c])) // cond: isPowerOfTwo(c-1) && int32(c) >= 3 // result: (MOVWUreg (NEG (ADDshiftLL x x [log64(c-1)]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c-1) && int32(c) >= 3) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c - 1)) v1.AddArg2(x, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MNEGW x (MOVDconst [c])) // cond: isPowerOfTwo(c+1) && int32(c) >= 7 // result: (MOVWUreg (NEG (ADDshiftLL (NEG x) x [log64(c+1)]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c+1) && int32(c) >= 7) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c + 1)) v2 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v2.AddArg(x) v1.AddArg2(v2, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MNEGW x (MOVDconst [c])) // cond: c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c) // result: (MOVWUreg (SLLconst [log64(c/3)] (SUBshiftLL x x [2]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c)) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c / 3)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MNEGW x (MOVDconst [c])) // cond: c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c) // result: (MOVWUreg (NEG (SLLconst [log64(c/5)] (ADDshiftLL x x [2])))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c)) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v1 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v1.AuxInt = int64ToAuxInt(log64(c / 5)) v2 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v2.AuxInt = int64ToAuxInt(2) v2.AddArg2(x, x) v1.AddArg(v2) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MNEGW x (MOVDconst [c])) // cond: c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c) // result: (MOVWUreg (SLLconst [log64(c/7)] (SUBshiftLL x x [3]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c)) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c / 7)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MNEGW x (MOVDconst [c])) // cond: c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c) // result: (MOVWUreg (NEG (SLLconst [log64(c/9)] (ADDshiftLL x x [3])))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c)) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v1 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v1.AuxInt = int64ToAuxInt(log64(c / 9)) v2 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v2.AuxInt = int64ToAuxInt(3) v2.AddArg2(x, x) v1.AddArg(v2) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MNEGW (MOVDconst [c]) (MOVDconst [d])) // result: (MOVDconst [int64(uint32(-c*d))]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { continue } d := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint32(-c * d))) return true } break } return false } func rewriteValueARM64_OpARM64MOD(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOD (MOVDconst [c]) (MOVDconst [d])) // cond: d != 0 // result: (MOVDconst [c%d]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_1.AuxInt) if !(d != 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(c % d) return true } return false } func rewriteValueARM64_OpARM64MODW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (MODW (MOVDconst [c]) (MOVDconst [d])) // cond: d != 0 // result: (MOVDconst [int64(uint32(int32(c)%int32(d)))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_1.AuxInt) if !(d != 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint32(int32(c) % int32(d)))) return true } return false } func rewriteValueARM64_OpARM64MOVBUload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVBUload [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVBUload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVBUload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVBUload [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVBUloadidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVBUloadidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVBUload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVBUload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVBUload) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVBUload [off] {sym} ptr (MOVBstorezero [off2] {sym2} ptr2 _)) // cond: sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) // result: (MOVDconst [0]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVBstorezero { break } off2 := auxIntToInt32(v_1.AuxInt) sym2 := auxToSym(v_1.Aux) ptr2 := v_1.Args[0] if !(sym == sym2 && off == off2 && isSamePtr(ptr, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (MOVBUload [off] {sym} (SB) _) // cond: symIsRO(sym) // result: (MOVDconst [int64(read8(sym, int64(off)))]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpSB || !(symIsRO(sym)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(read8(sym, int64(off)))) return true } return false } func rewriteValueARM64_OpARM64MOVBUloadidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVBUloadidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVBUload [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVBUload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVBUloadidx (MOVDconst [c]) ptr mem) // cond: is32Bit(c) // result: (MOVBUload [int32(c)] ptr mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) ptr := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVBUload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVBUloadidx ptr idx (MOVBstorezeroidx ptr2 idx2 _)) // cond: (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVBstorezeroidx { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVBUreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVBUreg (ANDconst [c] x)) // result: (ANDconst [c&(1<<8-1)] x) for { if v_0.Op != OpARM64ANDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c & (1<<8 - 1)) v.AddArg(x) return true } // match: (MOVBUreg (MOVDconst [c])) // result: (MOVDconst [int64(uint8(c))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint8(c))) return true } // match: (MOVBUreg x) // cond: v.Type.Size() <= 1 // result: x for { x := v_0 if !(v.Type.Size() <= 1) { break } v.copyOf(x) return true } // match: (MOVBUreg (SLLconst [lc] x)) // cond: lc >= 8 // result: (MOVDconst [0]) for { if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) if !(lc >= 8) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (MOVBUreg (SLLconst [lc] x)) // cond: lc < 8 // result: (UBFIZ [armBFAuxInt(lc, 8-lc)] x) for { if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc < 8) { break } v.reset(OpARM64UBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(lc, 8-lc)) v.AddArg(x) return true } // match: (MOVBUreg (SRLconst [rc] x)) // cond: rc < 8 // result: (UBFX [armBFAuxInt(rc, 8)] x) for { if v_0.Op != OpARM64SRLconst { break } rc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(rc < 8) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc, 8)) v.AddArg(x) return true } // match: (MOVBUreg (UBFX [bfc] x)) // cond: bfc.width() <= 8 // result: (UBFX [bfc] x) for { if v_0.Op != OpARM64UBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(bfc.width() <= 8) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(bfc) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64MOVBload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVBload [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVBload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVBload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVBload [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVBloadidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVBloadidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVBload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVBload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVBload) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVBload [off] {sym} ptr (MOVBstorezero [off2] {sym2} ptr2 _)) // cond: sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) // result: (MOVDconst [0]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVBstorezero { break } off2 := auxIntToInt32(v_1.AuxInt) sym2 := auxToSym(v_1.Aux) ptr2 := v_1.Args[0] if !(sym == sym2 && off == off2 && isSamePtr(ptr, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVBloadidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVBloadidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVBload [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVBload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVBloadidx (MOVDconst [c]) ptr mem) // cond: is32Bit(c) // result: (MOVBload [int32(c)] ptr mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) ptr := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVBload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVBloadidx ptr idx (MOVBstorezeroidx ptr2 idx2 _)) // cond: (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVBstorezeroidx { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVBreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVBreg (MOVDconst [c])) // result: (MOVDconst [int64(int8(c))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(int8(c))) return true } // match: (MOVBreg x) // cond: v.Type.Size() <= 1 // result: x for { x := v_0 if !(v.Type.Size() <= 1) { break } v.copyOf(x) return true } // match: (MOVBreg (ANDconst x [c])) // cond: uint64(c) & uint64(0xffffffffffffff80) == 0 // result: (ANDconst x [c]) for { t := v.Type if v_0.Op != OpARM64ANDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(uint64(c)&uint64(0xffffffffffffff80) == 0) { break } v.reset(OpARM64ANDconst) v.Type = t v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } // match: (MOVBreg (SLLconst [lc] x)) // cond: lc < 8 // result: (SBFIZ [armBFAuxInt(lc, 8-lc)] x) for { if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc < 8) { break } v.reset(OpARM64SBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(lc, 8-lc)) v.AddArg(x) return true } // match: (MOVBreg (SBFX [bfc] x)) // cond: bfc.width() <= 8 // result: (SBFX [bfc] x) for { if v_0.Op != OpARM64SBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(bfc.width() <= 8) { break } v.reset(OpARM64SBFX) v.AuxInt = arm64BitFieldToAuxInt(bfc) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64MOVBstore(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} (ADDconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVBstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVBstore [off] {sym} (ADD ptr idx) val mem) // cond: off == 0 && sym == nil // result: (MOVBstoreidx ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVBstoreidx) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVBstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVBstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } // match: (MOVBstore [off] {sym} ptr (MOVDconst [0]) mem) // result: (MOVBstorezero [off] {sym} ptr mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpARM64MOVBstorezero) 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 != OpARM64MOVBreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVBstore) 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 != OpARM64MOVBUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVBstore) 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 != OpARM64MOVHreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVBstore) 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 != OpARM64MOVHUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVBstore) 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 != OpARM64MOVWreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVBstore) 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 != OpARM64MOVWUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } return false } func rewriteValueARM64_OpARM64MOVBstoreidx(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVBstoreidx ptr (MOVDconst [c]) val mem) // cond: is32Bit(c) // result: (MOVBstore [int32(c)] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(ptr, val, mem) return true } // match: (MOVBstoreidx (MOVDconst [c]) idx val mem) // cond: is32Bit(c) // result: (MOVBstore [int32(c)] idx val mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(idx, val, mem) return true } // match: (MOVBstoreidx ptr idx (MOVDconst [0]) mem) // result: (MOVBstorezeroidx ptr idx mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } mem := v_3 v.reset(OpARM64MOVBstorezeroidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVBstoreidx ptr idx (MOVBreg x) mem) // result: (MOVBstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVBreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVBstoreidx) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVBstoreidx ptr idx (MOVBUreg x) mem) // result: (MOVBstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVBUreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVBstoreidx) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVBstoreidx ptr idx (MOVHreg x) mem) // result: (MOVBstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVBstoreidx) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVBstoreidx ptr idx (MOVHUreg x) mem) // result: (MOVBstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHUreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVBstoreidx) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVBstoreidx ptr idx (MOVWreg x) mem) // result: (MOVBstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVBstoreidx) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVBstoreidx ptr idx (MOVWUreg x) mem) // result: (MOVBstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWUreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVBstoreidx) v.AddArg4(ptr, idx, x, mem) return true } return false } func rewriteValueARM64_OpARM64MOVBstorezero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVBstorezero [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVBstorezero [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVBstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVBstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVBstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVBstorezero) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVBstorezero [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVBstorezeroidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVBstorezeroidx) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVBstorezeroidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVBstorezeroidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVBstorezero [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVBstorezero) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVBstorezeroidx (MOVDconst [c]) idx mem) // cond: is32Bit(c) // result: (MOVBstorezero [int32(c)] idx mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVBstorezero) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVDload(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 (FMOVDstore [off] {sym} ptr val _)) // result: (FMOVDfpgp val) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64FMOVDstore || 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(OpARM64FMOVDfpgp) v.AddArg(val) return true } // match: (MOVDload [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVDload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVDload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVDload [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVDloadidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVDloadidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVDload [off] {sym} (ADDshiftLL [3] ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVDloadidx8 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVDloadidx8) v.AddArg3(ptr, idx, mem) return true } // match: (MOVDload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVDload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVDload) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVDload [off] {sym} ptr (MOVDstorezero [off2] {sym2} ptr2 _)) // cond: sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) // result: (MOVDconst [0]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVDstorezero { break } off2 := auxIntToInt32(v_1.AuxInt) sym2 := auxToSym(v_1.Aux) ptr2 := v_1.Args[0] if !(sym == sym2 && off == off2 && isSamePtr(ptr, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (MOVDload [off] {sym} (SB) _) // cond: symIsRO(sym) // result: (MOVDconst [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(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(read64(sym, int64(off), config.ctxt.Arch.ByteOrder))) return true } return false } func rewriteValueARM64_OpARM64MOVDloadidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVDloadidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVDload [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVDload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVDloadidx (MOVDconst [c]) ptr mem) // cond: is32Bit(c) // result: (MOVDload [int32(c)] ptr mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) ptr := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVDload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVDloadidx ptr (SLLconst [3] idx) mem) // result: (MOVDloadidx8 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 3 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVDloadidx8) v.AddArg3(ptr, idx, mem) return true } // match: (MOVDloadidx (SLLconst [3] idx) ptr mem) // result: (MOVDloadidx8 ptr idx mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[0] ptr := v_1 mem := v_2 v.reset(OpARM64MOVDloadidx8) v.AddArg3(ptr, idx, mem) return true } // match: (MOVDloadidx ptr idx (MOVDstorezeroidx ptr2 idx2 _)) // cond: (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVDstorezeroidx { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVDloadidx8(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVDloadidx8 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<3) // result: (MOVDload [int32(c)<<3] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 3)) { break } v.reset(OpARM64MOVDload) v.AuxInt = int32ToAuxInt(int32(c) << 3) v.AddArg2(ptr, mem) return true } // match: (MOVDloadidx8 ptr idx (MOVDstorezeroidx8 ptr2 idx2 _)) // cond: isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVDstorezeroidx8 { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVDnop(v *Value) bool { v_0 := v.Args[0] // match: (MOVDnop (MOVDconst [c])) // result: (MOVDconst [c]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(c) return true } return false } func rewriteValueARM64_OpARM64MOVDreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVDreg x) // cond: x.Uses == 1 // result: (MOVDnop x) for { x := v_0 if !(x.Uses == 1) { break } v.reset(OpARM64MOVDnop) v.AddArg(x) return true } // match: (MOVDreg (MOVDconst [c])) // result: (MOVDconst [c]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(c) return true } return false } func rewriteValueARM64_OpARM64MOVDstore(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 (FMOVDfpgp val) mem) // result: (FMOVDstore [off] {sym} ptr val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64FMOVDfpgp { break } val := v_1.Args[0] mem := v_2 v.reset(OpARM64FMOVDstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVDstore [off1] {sym} (ADDconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVDstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVDstore [off] {sym} (ADD ptr idx) val mem) // cond: off == 0 && sym == nil // result: (MOVDstoreidx ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVDstoreidx) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVDstore [off] {sym} (ADDshiftLL [3] ptr idx) val mem) // cond: off == 0 && sym == nil // result: (MOVDstoreidx8 ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVDstoreidx8) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVDstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVDstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } // match: (MOVDstore [off] {sym} ptr (MOVDconst [0]) mem) // result: (MOVDstorezero [off] {sym} ptr mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpARM64MOVDstorezero) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64MOVDstoreidx(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVDstoreidx ptr (MOVDconst [c]) val mem) // cond: is32Bit(c) // result: (MOVDstore [int32(c)] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(ptr, val, mem) return true } // match: (MOVDstoreidx (MOVDconst [c]) idx val mem) // cond: is32Bit(c) // result: (MOVDstore [int32(c)] idx val mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(idx, val, mem) return true } // match: (MOVDstoreidx ptr (SLLconst [3] idx) val mem) // result: (MOVDstoreidx8 ptr idx val mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 3 { break } idx := v_1.Args[0] val := v_2 mem := v_3 v.reset(OpARM64MOVDstoreidx8) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVDstoreidx (SLLconst [3] idx) ptr val mem) // result: (MOVDstoreidx8 ptr idx val mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[0] ptr := v_1 val := v_2 mem := v_3 v.reset(OpARM64MOVDstoreidx8) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVDstoreidx ptr idx (MOVDconst [0]) mem) // result: (MOVDstorezeroidx ptr idx mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } mem := v_3 v.reset(OpARM64MOVDstorezeroidx) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVDstoreidx8(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVDstoreidx8 ptr (MOVDconst [c]) val mem) // cond: is32Bit(c<<3) // result: (MOVDstore [int32(c)<<3] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c << 3)) { break } v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(int32(c) << 3) v.AddArg3(ptr, val, mem) return true } // match: (MOVDstoreidx8 ptr idx (MOVDconst [0]) mem) // result: (MOVDstorezeroidx8 ptr idx mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } mem := v_3 v.reset(OpARM64MOVDstorezeroidx8) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVDstorezero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVDstorezero {s} [i] ptr x:(MOVDstorezero {s} [i+8] ptr mem)) // cond: x.Uses == 1 && setPos(v, x.Pos) && clobber(x) // result: (MOVQstorezero {s} [i] ptr mem) for { i := auxIntToInt32(v.AuxInt) s := auxToSym(v.Aux) ptr := v_0 x := v_1 if x.Op != OpARM64MOVDstorezero || auxIntToInt32(x.AuxInt) != i+8 || auxToSym(x.Aux) != s { break } mem := x.Args[1] if ptr != x.Args[0] || !(x.Uses == 1 && setPos(v, x.Pos) && clobber(x)) { break } v.reset(OpARM64MOVQstorezero) v.AuxInt = int32ToAuxInt(i) v.Aux = symToAux(s) v.AddArg2(ptr, mem) return true } // match: (MOVDstorezero {s} [i] ptr x:(MOVDstorezero {s} [i-8] ptr mem)) // cond: x.Uses == 1 && setPos(v, x.Pos) && clobber(x) // result: (MOVQstorezero {s} [i-8] ptr mem) for { i := auxIntToInt32(v.AuxInt) s := auxToSym(v.Aux) ptr := v_0 x := v_1 if x.Op != OpARM64MOVDstorezero || auxIntToInt32(x.AuxInt) != i-8 || auxToSym(x.Aux) != s { break } mem := x.Args[1] if ptr != x.Args[0] || !(x.Uses == 1 && setPos(v, x.Pos) && clobber(x)) { break } v.reset(OpARM64MOVQstorezero) v.AuxInt = int32ToAuxInt(i - 8) v.Aux = symToAux(s) v.AddArg2(ptr, mem) return true } // match: (MOVDstorezero [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVDstorezero [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVDstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVDstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVDstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVDstorezero) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVDstorezero [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVDstorezeroidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVDstorezeroidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVDstorezero [off] {sym} (ADDshiftLL [3] ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVDstorezeroidx8 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVDstorezeroidx8) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVDstorezeroidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVDstorezeroidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVDstorezero [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVDstorezero) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVDstorezeroidx (MOVDconst [c]) idx mem) // cond: is32Bit(c) // result: (MOVDstorezero [int32(c)] idx mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVDstorezero) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(idx, mem) return true } // match: (MOVDstorezeroidx ptr (SLLconst [3] idx) mem) // result: (MOVDstorezeroidx8 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 3 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVDstorezeroidx8) v.AddArg3(ptr, idx, mem) return true } // match: (MOVDstorezeroidx (SLLconst [3] idx) ptr mem) // result: (MOVDstorezeroidx8 ptr idx mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 3 { break } idx := v_0.Args[0] ptr := v_1 mem := v_2 v.reset(OpARM64MOVDstorezeroidx8) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVDstorezeroidx8(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVDstorezeroidx8 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<3) // result: (MOVDstorezero [int32(c<<3)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 3)) { break } v.reset(OpARM64MOVDstorezero) v.AuxInt = int32ToAuxInt(int32(c << 3)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64MOVHUload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVHUload [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVHUload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVHUload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVHUload [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVHUloadidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVHUloadidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHUload [off] {sym} (ADDshiftLL [1] ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVHUloadidx2 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 1 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVHUloadidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHUload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVHUload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVHUload) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVHUload [off] {sym} ptr (MOVHstorezero [off2] {sym2} ptr2 _)) // cond: sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) // result: (MOVDconst [0]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVHstorezero { break } off2 := auxIntToInt32(v_1.AuxInt) sym2 := auxToSym(v_1.Aux) ptr2 := v_1.Args[0] if !(sym == sym2 && off == off2 && isSamePtr(ptr, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (MOVHUload [off] {sym} (SB) _) // cond: symIsRO(sym) // result: (MOVDconst [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(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(read16(sym, int64(off), config.ctxt.Arch.ByteOrder))) return true } return false } func rewriteValueARM64_OpARM64MOVHUloadidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVHUloadidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVHUload [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVHUload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVHUloadidx (MOVDconst [c]) ptr mem) // cond: is32Bit(c) // result: (MOVHUload [int32(c)] ptr mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) ptr := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVHUload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVHUloadidx ptr (SLLconst [1] idx) mem) // result: (MOVHUloadidx2 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 1 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVHUloadidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHUloadidx ptr (ADD idx idx) mem) // result: (MOVHUloadidx2 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64ADD { break } idx := v_1.Args[1] if idx != v_1.Args[0] { break } mem := v_2 v.reset(OpARM64MOVHUloadidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHUloadidx (ADD idx idx) ptr mem) // result: (MOVHUloadidx2 ptr idx mem) for { if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] if idx != v_0.Args[0] { break } ptr := v_1 mem := v_2 v.reset(OpARM64MOVHUloadidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHUloadidx ptr idx (MOVHstorezeroidx ptr2 idx2 _)) // cond: (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHstorezeroidx { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVHUloadidx2(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVHUloadidx2 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<1) // result: (MOVHUload [int32(c)<<1] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 1)) { break } v.reset(OpARM64MOVHUload) v.AuxInt = int32ToAuxInt(int32(c) << 1) v.AddArg2(ptr, mem) return true } // match: (MOVHUloadidx2 ptr idx (MOVHstorezeroidx2 ptr2 idx2 _)) // cond: isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHstorezeroidx2 { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVHUreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVHUreg (ANDconst [c] x)) // result: (ANDconst [c&(1<<16-1)] x) for { if v_0.Op != OpARM64ANDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c & (1<<16 - 1)) v.AddArg(x) return true } // match: (MOVHUreg (MOVDconst [c])) // result: (MOVDconst [int64(uint16(c))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint16(c))) return true } // match: (MOVHUreg x) // cond: v.Type.Size() <= 2 // result: x for { x := v_0 if !(v.Type.Size() <= 2) { break } v.copyOf(x) return true } // match: (MOVHUreg (SLLconst [lc] x)) // cond: lc >= 16 // result: (MOVDconst [0]) for { if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) if !(lc >= 16) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (MOVHUreg (SLLconst [lc] x)) // cond: lc < 16 // result: (UBFIZ [armBFAuxInt(lc, 16-lc)] x) for { if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc < 16) { break } v.reset(OpARM64UBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(lc, 16-lc)) v.AddArg(x) return true } // match: (MOVHUreg (SRLconst [rc] x)) // cond: rc < 16 // result: (UBFX [armBFAuxInt(rc, 16)] x) for { if v_0.Op != OpARM64SRLconst { break } rc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(rc < 16) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc, 16)) v.AddArg(x) return true } // match: (MOVHUreg (UBFX [bfc] x)) // cond: bfc.width() <= 16 // result: (UBFX [bfc] x) for { if v_0.Op != OpARM64UBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(bfc.width() <= 16) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(bfc) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64MOVHload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVHload [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVHload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVHload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVHload [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVHloadidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVHloadidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHload [off] {sym} (ADDshiftLL [1] ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVHloadidx2 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 1 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVHloadidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVHload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVHload) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVHload [off] {sym} ptr (MOVHstorezero [off2] {sym2} ptr2 _)) // cond: sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) // result: (MOVDconst [0]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVHstorezero { break } off2 := auxIntToInt32(v_1.AuxInt) sym2 := auxToSym(v_1.Aux) ptr2 := v_1.Args[0] if !(sym == sym2 && off == off2 && isSamePtr(ptr, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVHloadidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVHloadidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVHload [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVHload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVHloadidx (MOVDconst [c]) ptr mem) // cond: is32Bit(c) // result: (MOVHload [int32(c)] ptr mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) ptr := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVHload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVHloadidx ptr (SLLconst [1] idx) mem) // result: (MOVHloadidx2 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 1 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVHloadidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHloadidx ptr (ADD idx idx) mem) // result: (MOVHloadidx2 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64ADD { break } idx := v_1.Args[1] if idx != v_1.Args[0] { break } mem := v_2 v.reset(OpARM64MOVHloadidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHloadidx (ADD idx idx) ptr mem) // result: (MOVHloadidx2 ptr idx mem) for { if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] if idx != v_0.Args[0] { break } ptr := v_1 mem := v_2 v.reset(OpARM64MOVHloadidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHloadidx ptr idx (MOVHstorezeroidx ptr2 idx2 _)) // cond: (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHstorezeroidx { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVHloadidx2(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVHloadidx2 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<1) // result: (MOVHload [int32(c)<<1] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 1)) { break } v.reset(OpARM64MOVHload) v.AuxInt = int32ToAuxInt(int32(c) << 1) v.AddArg2(ptr, mem) return true } // match: (MOVHloadidx2 ptr idx (MOVHstorezeroidx2 ptr2 idx2 _)) // cond: isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHstorezeroidx2 { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVHreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVHreg (MOVDconst [c])) // result: (MOVDconst [int64(int16(c))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(int16(c))) return true } // match: (MOVHreg x) // cond: v.Type.Size() <= 2 // result: x for { x := v_0 if !(v.Type.Size() <= 2) { break } v.copyOf(x) return true } // match: (MOVHreg (ANDconst x [c])) // cond: uint64(c) & uint64(0xffffffffffff8000) == 0 // result: (ANDconst x [c]) for { t := v.Type if v_0.Op != OpARM64ANDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(uint64(c)&uint64(0xffffffffffff8000) == 0) { break } v.reset(OpARM64ANDconst) v.Type = t v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } // match: (MOVHreg (SLLconst [lc] x)) // cond: lc < 16 // result: (SBFIZ [armBFAuxInt(lc, 16-lc)] x) for { if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc < 16) { break } v.reset(OpARM64SBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(lc, 16-lc)) v.AddArg(x) return true } // match: (MOVHreg (SBFX [bfc] x)) // cond: bfc.width() <= 16 // result: (SBFX [bfc] x) for { if v_0.Op != OpARM64SBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(bfc.width() <= 16) { break } v.reset(OpARM64SBFX) v.AuxInt = arm64BitFieldToAuxInt(bfc) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64MOVHstore(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} (ADDconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVHstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVHstore [off] {sym} (ADD ptr idx) val mem) // cond: off == 0 && sym == nil // result: (MOVHstoreidx ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVHstoreidx) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVHstore [off] {sym} (ADDshiftLL [1] ptr idx) val mem) // cond: off == 0 && sym == nil // result: (MOVHstoreidx2 ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 1 { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVHstoreidx2) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVHstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVHstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } // match: (MOVHstore [off] {sym} ptr (MOVDconst [0]) mem) // result: (MOVHstorezero [off] {sym} ptr mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpARM64MOVHstorezero) 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 != OpARM64MOVHreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVHstore) 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 != OpARM64MOVHUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVHstore) 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 != OpARM64MOVWreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVHstore) 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 != OpARM64MOVWUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } return false } func rewriteValueARM64_OpARM64MOVHstoreidx(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVHstoreidx ptr (MOVDconst [c]) val mem) // cond: is32Bit(c) // result: (MOVHstore [int32(c)] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(ptr, val, mem) return true } // match: (MOVHstoreidx (MOVDconst [c]) idx val mem) // cond: is32Bit(c) // result: (MOVHstore [int32(c)] idx val mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(idx, val, mem) return true } // match: (MOVHstoreidx ptr (SLLconst [1] idx) val mem) // result: (MOVHstoreidx2 ptr idx val mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 1 { break } idx := v_1.Args[0] val := v_2 mem := v_3 v.reset(OpARM64MOVHstoreidx2) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVHstoreidx ptr (ADD idx idx) val mem) // result: (MOVHstoreidx2 ptr idx val mem) for { ptr := v_0 if v_1.Op != OpARM64ADD { break } idx := v_1.Args[1] if idx != v_1.Args[0] { break } val := v_2 mem := v_3 v.reset(OpARM64MOVHstoreidx2) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVHstoreidx (SLLconst [1] idx) ptr val mem) // result: (MOVHstoreidx2 ptr idx val mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 1 { break } idx := v_0.Args[0] ptr := v_1 val := v_2 mem := v_3 v.reset(OpARM64MOVHstoreidx2) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVHstoreidx (ADD idx idx) ptr val mem) // result: (MOVHstoreidx2 ptr idx val mem) for { if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] if idx != v_0.Args[0] { break } ptr := v_1 val := v_2 mem := v_3 v.reset(OpARM64MOVHstoreidx2) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVHstoreidx ptr idx (MOVDconst [0]) mem) // result: (MOVHstorezeroidx ptr idx mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } mem := v_3 v.reset(OpARM64MOVHstorezeroidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHstoreidx ptr idx (MOVHreg x) mem) // result: (MOVHstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVHstoreidx) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVHstoreidx ptr idx (MOVHUreg x) mem) // result: (MOVHstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHUreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVHstoreidx) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVHstoreidx ptr idx (MOVWreg x) mem) // result: (MOVHstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVHstoreidx) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVHstoreidx ptr idx (MOVWUreg x) mem) // result: (MOVHstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWUreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVHstoreidx) v.AddArg4(ptr, idx, x, mem) return true } return false } func rewriteValueARM64_OpARM64MOVHstoreidx2(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVHstoreidx2 ptr (MOVDconst [c]) val mem) // cond: is32Bit(c<<1) // result: (MOVHstore [int32(c)<<1] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c << 1)) { break } v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(int32(c) << 1) v.AddArg3(ptr, val, mem) return true } // match: (MOVHstoreidx2 ptr idx (MOVDconst [0]) mem) // result: (MOVHstorezeroidx2 ptr idx mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } mem := v_3 v.reset(OpARM64MOVHstorezeroidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHstoreidx2 ptr idx (MOVHreg x) mem) // result: (MOVHstoreidx2 ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVHstoreidx2) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVHstoreidx2 ptr idx (MOVHUreg x) mem) // result: (MOVHstoreidx2 ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVHUreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVHstoreidx2) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVHstoreidx2 ptr idx (MOVWreg x) mem) // result: (MOVHstoreidx2 ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVHstoreidx2) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVHstoreidx2 ptr idx (MOVWUreg x) mem) // result: (MOVHstoreidx2 ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWUreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVHstoreidx2) v.AddArg4(ptr, idx, x, mem) return true } return false } func rewriteValueARM64_OpARM64MOVHstorezero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVHstorezero [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVHstorezero [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVHstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVHstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVHstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVHstorezero) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVHstorezero [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVHstorezeroidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVHstorezeroidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHstorezero [off] {sym} (ADDshiftLL [1] ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVHstorezeroidx2 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 1 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVHstorezeroidx2) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVHstorezeroidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVHstorezeroidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVHstorezero [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVHstorezero) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVHstorezeroidx (MOVDconst [c]) idx mem) // cond: is32Bit(c) // result: (MOVHstorezero [int32(c)] idx mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVHstorezero) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(idx, mem) return true } // match: (MOVHstorezeroidx ptr (SLLconst [1] idx) mem) // result: (MOVHstorezeroidx2 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 1 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVHstorezeroidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHstorezeroidx ptr (ADD idx idx) mem) // result: (MOVHstorezeroidx2 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64ADD { break } idx := v_1.Args[1] if idx != v_1.Args[0] { break } mem := v_2 v.reset(OpARM64MOVHstorezeroidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHstorezeroidx (SLLconst [1] idx) ptr mem) // result: (MOVHstorezeroidx2 ptr idx mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 1 { break } idx := v_0.Args[0] ptr := v_1 mem := v_2 v.reset(OpARM64MOVHstorezeroidx2) v.AddArg3(ptr, idx, mem) return true } // match: (MOVHstorezeroidx (ADD idx idx) ptr mem) // result: (MOVHstorezeroidx2 ptr idx mem) for { if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] if idx != v_0.Args[0] { break } ptr := v_1 mem := v_2 v.reset(OpARM64MOVHstorezeroidx2) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVHstorezeroidx2(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVHstorezeroidx2 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<1) // result: (MOVHstorezero [int32(c<<1)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 1)) { break } v.reset(OpARM64MOVHstorezero) v.AuxInt = int32ToAuxInt(int32(c << 1)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64MOVQstorezero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVQstorezero [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVQstorezero [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVQstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVQstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVQstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVQstorezero) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64MOVWUload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVWUload [off] {sym} ptr (FMOVSstore [off] {sym} ptr val _)) // result: (FMOVSfpgp val) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64FMOVSstore || 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(OpARM64FMOVSfpgp) v.AddArg(val) return true } // match: (MOVWUload [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVWUload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVWUload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVWUload [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVWUloadidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVWUloadidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWUload [off] {sym} (ADDshiftLL [2] ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVWUloadidx4 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVWUloadidx4) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWUload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVWUload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVWUload) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVWUload [off] {sym} ptr (MOVWstorezero [off2] {sym2} ptr2 _)) // cond: sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) // result: (MOVDconst [0]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVWstorezero { break } off2 := auxIntToInt32(v_1.AuxInt) sym2 := auxToSym(v_1.Aux) ptr2 := v_1.Args[0] if !(sym == sym2 && off == off2 && isSamePtr(ptr, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (MOVWUload [off] {sym} (SB) _) // cond: symIsRO(sym) // result: (MOVDconst [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(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(read32(sym, int64(off), config.ctxt.Arch.ByteOrder))) return true } return false } func rewriteValueARM64_OpARM64MOVWUloadidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVWUloadidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVWUload [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVWUload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVWUloadidx (MOVDconst [c]) ptr mem) // cond: is32Bit(c) // result: (MOVWUload [int32(c)] ptr mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) ptr := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVWUload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVWUloadidx ptr (SLLconst [2] idx) mem) // result: (MOVWUloadidx4 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 2 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVWUloadidx4) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWUloadidx (SLLconst [2] idx) ptr mem) // result: (MOVWUloadidx4 ptr idx mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[0] ptr := v_1 mem := v_2 v.reset(OpARM64MOVWUloadidx4) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWUloadidx ptr idx (MOVWstorezeroidx ptr2 idx2 _)) // cond: (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWstorezeroidx { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVWUloadidx4(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVWUloadidx4 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<2) // result: (MOVWUload [int32(c)<<2] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 2)) { break } v.reset(OpARM64MOVWUload) v.AuxInt = int32ToAuxInt(int32(c) << 2) v.AddArg2(ptr, mem) return true } // match: (MOVWUloadidx4 ptr idx (MOVWstorezeroidx4 ptr2 idx2 _)) // cond: isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWstorezeroidx4 { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVWUreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVWUreg (ANDconst [c] x)) // result: (ANDconst [c&(1<<32-1)] x) for { if v_0.Op != OpARM64ANDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c & (1<<32 - 1)) v.AddArg(x) return true } // match: (MOVWUreg (MOVDconst [c])) // result: (MOVDconst [int64(uint32(c))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint32(c))) return true } // match: (MOVWUreg x) // cond: v.Type.Size() <= 4 // result: x for { x := v_0 if !(v.Type.Size() <= 4) { break } v.copyOf(x) return true } // match: (MOVWUreg (SLLconst [lc] x)) // cond: lc >= 32 // result: (MOVDconst [0]) for { if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) if !(lc >= 32) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (MOVWUreg (SLLconst [lc] x)) // cond: lc < 32 // result: (UBFIZ [armBFAuxInt(lc, 32-lc)] x) for { if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc < 32) { break } v.reset(OpARM64UBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(lc, 32-lc)) v.AddArg(x) return true } // match: (MOVWUreg (SRLconst [rc] x)) // cond: rc < 32 // result: (UBFX [armBFAuxInt(rc, 32)] x) for { if v_0.Op != OpARM64SRLconst { break } rc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(rc < 32) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc, 32)) v.AddArg(x) return true } // match: (MOVWUreg (UBFX [bfc] x)) // cond: bfc.width() <= 32 // result: (UBFX [bfc] x) for { if v_0.Op != OpARM64UBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(bfc.width() <= 32) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(bfc) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64MOVWload(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVWload [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVWload [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVWload) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVWload [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVWloadidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVWloadidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWload [off] {sym} (ADDshiftLL [2] ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVWloadidx4 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVWloadidx4) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVWload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVWload) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVWload [off] {sym} ptr (MOVWstorezero [off2] {sym2} ptr2 _)) // cond: sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) // result: (MOVDconst [0]) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVWstorezero { break } off2 := auxIntToInt32(v_1.AuxInt) sym2 := auxToSym(v_1.Aux) ptr2 := v_1.Args[0] if !(sym == sym2 && off == off2 && isSamePtr(ptr, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVWloadidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVWloadidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVWload [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVWload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVWloadidx (MOVDconst [c]) ptr mem) // cond: is32Bit(c) // result: (MOVWload [int32(c)] ptr mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) ptr := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVWload) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVWloadidx ptr (SLLconst [2] idx) mem) // result: (MOVWloadidx4 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 2 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVWloadidx4) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWloadidx (SLLconst [2] idx) ptr mem) // result: (MOVWloadidx4 ptr idx mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[0] ptr := v_1 mem := v_2 v.reset(OpARM64MOVWloadidx4) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWloadidx ptr idx (MOVWstorezeroidx ptr2 idx2 _)) // cond: (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWstorezeroidx { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVWloadidx4(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVWloadidx4 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<2) // result: (MOVWload [int32(c)<<2] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 2)) { break } v.reset(OpARM64MOVWload) v.AuxInt = int32ToAuxInt(int32(c) << 2) v.AddArg2(ptr, mem) return true } // match: (MOVWloadidx4 ptr idx (MOVWstorezeroidx4 ptr2 idx2 _)) // cond: isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) // result: (MOVDconst [0]) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWstorezeroidx4 { break } idx2 := v_2.Args[1] ptr2 := v_2.Args[0] if !(isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2)) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64MOVWreg(v *Value) bool { v_0 := v.Args[0] // match: (MOVWreg (MOVDconst [c])) // result: (MOVDconst [int64(int32(c))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(int32(c))) return true } // match: (MOVWreg x) // cond: v.Type.Size() <= 4 // result: x for { x := v_0 if !(v.Type.Size() <= 4) { break } v.copyOf(x) return true } // match: (MOVWreg (ANDconst x [c])) // cond: uint64(c) & uint64(0xffffffff80000000) == 0 // result: (ANDconst x [c]) for { t := v.Type if v_0.Op != OpARM64ANDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(uint64(c)&uint64(0xffffffff80000000) == 0) { break } v.reset(OpARM64ANDconst) v.Type = t v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } // match: (MOVWreg (SLLconst [lc] x)) // cond: lc < 32 // result: (SBFIZ [armBFAuxInt(lc, 32-lc)] x) for { if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc < 32) { break } v.reset(OpARM64SBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(lc, 32-lc)) v.AddArg(x) return true } // match: (MOVWreg (SBFX [bfc] x)) // cond: bfc.width() <= 32 // result: (SBFX [bfc] x) for { if v_0.Op != OpARM64SBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(bfc.width() <= 32) { break } v.reset(OpARM64SBFX) v.AuxInt = arm64BitFieldToAuxInt(bfc) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64MOVWstore(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 (FMOVSfpgp val) mem) // result: (FMOVSstore [off] {sym} ptr val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64FMOVSfpgp { break } val := v_1.Args[0] mem := v_2 v.reset(OpARM64FMOVSstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVWstore [off1] {sym} (ADDconst [off2] ptr) val mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVWstore [off1+int32(off2)] {sym} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg3(ptr, val, mem) return true } // match: (MOVWstore [off] {sym} (ADD ptr idx) val mem) // cond: off == 0 && sym == nil // result: (MOVWstoreidx ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVWstoreidx) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVWstore [off] {sym} (ADDshiftLL [2] ptr idx) val mem) // cond: off == 0 && sym == nil // result: (MOVWstoreidx4 ptr idx val mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[1] ptr := v_0.Args[0] val := v_1 mem := v_2 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVWstoreidx4) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVWstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVWstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg3(ptr, val, mem) return true } // match: (MOVWstore [off] {sym} ptr (MOVDconst [0]) mem) // result: (MOVWstorezero [off] {sym} ptr mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { break } mem := v_2 v.reset(OpARM64MOVWstorezero) 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 != OpARM64MOVWreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVWstore) 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 != OpARM64MOVWUreg { break } x := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg3(ptr, x, mem) return true } return false } func rewriteValueARM64_OpARM64MOVWstoreidx(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVWstoreidx ptr (MOVDconst [c]) val mem) // cond: is32Bit(c) // result: (MOVWstore [int32(c)] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(ptr, val, mem) return true } // match: (MOVWstoreidx (MOVDconst [c]) idx val mem) // cond: is32Bit(c) // result: (MOVWstore [int32(c)] idx val mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 val := v_2 mem := v_3 if !(is32Bit(c)) { break } v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg3(idx, val, mem) return true } // match: (MOVWstoreidx ptr (SLLconst [2] idx) val mem) // result: (MOVWstoreidx4 ptr idx val mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 2 { break } idx := v_1.Args[0] val := v_2 mem := v_3 v.reset(OpARM64MOVWstoreidx4) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVWstoreidx (SLLconst [2] idx) ptr val mem) // result: (MOVWstoreidx4 ptr idx val mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[0] ptr := v_1 val := v_2 mem := v_3 v.reset(OpARM64MOVWstoreidx4) v.AddArg4(ptr, idx, val, mem) return true } // match: (MOVWstoreidx ptr idx (MOVDconst [0]) mem) // result: (MOVWstorezeroidx ptr idx mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } mem := v_3 v.reset(OpARM64MOVWstorezeroidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWstoreidx ptr idx (MOVWreg x) mem) // result: (MOVWstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVWstoreidx) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVWstoreidx ptr idx (MOVWUreg x) mem) // result: (MOVWstoreidx ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWUreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVWstoreidx) v.AddArg4(ptr, idx, x, mem) return true } return false } func rewriteValueARM64_OpARM64MOVWstoreidx4(v *Value) bool { v_3 := v.Args[3] v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVWstoreidx4 ptr (MOVDconst [c]) val mem) // cond: is32Bit(c<<2) // result: (MOVWstore [int32(c)<<2] ptr val mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) val := v_2 mem := v_3 if !(is32Bit(c << 2)) { break } v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(int32(c) << 2) v.AddArg3(ptr, val, mem) return true } // match: (MOVWstoreidx4 ptr idx (MOVDconst [0]) mem) // result: (MOVWstorezeroidx4 ptr idx mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } mem := v_3 v.reset(OpARM64MOVWstorezeroidx4) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWstoreidx4 ptr idx (MOVWreg x) mem) // result: (MOVWstoreidx4 ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVWstoreidx4) v.AddArg4(ptr, idx, x, mem) return true } // match: (MOVWstoreidx4 ptr idx (MOVWUreg x) mem) // result: (MOVWstoreidx4 ptr idx x mem) for { ptr := v_0 idx := v_1 if v_2.Op != OpARM64MOVWUreg { break } x := v_2.Args[0] mem := v_3 v.reset(OpARM64MOVWstoreidx4) v.AddArg4(ptr, idx, x, mem) return true } return false } func rewriteValueARM64_OpARM64MOVWstorezero(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (MOVWstorezero [off1] {sym} (ADDconst [off2] ptr) mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVWstorezero [off1+int32(off2)] {sym} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { 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_dynlink)) { break } v.reset(OpARM64MOVWstorezero) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } // match: (MOVWstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (MOVWstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { 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_dynlink)) { break } v.reset(OpARM64MOVWstorezero) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg2(ptr, mem) return true } // match: (MOVWstorezero [off] {sym} (ADD ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVWstorezeroidx ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADD { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVWstorezeroidx) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWstorezero [off] {sym} (ADDshiftLL [2] ptr idx) mem) // cond: off == 0 && sym == nil // result: (MOVWstorezeroidx4 ptr idx mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDshiftLL || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[1] ptr := v_0.Args[0] mem := v_1 if !(off == 0 && sym == nil) { break } v.reset(OpARM64MOVWstorezeroidx4) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVWstorezeroidx(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVWstorezeroidx ptr (MOVDconst [c]) mem) // cond: is32Bit(c) // result: (MOVWstorezero [int32(c)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVWstorezero) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(ptr, mem) return true } // match: (MOVWstorezeroidx (MOVDconst [c]) idx mem) // cond: is32Bit(c) // result: (MOVWstorezero [int32(c)] idx mem) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) idx := v_1 mem := v_2 if !(is32Bit(c)) { break } v.reset(OpARM64MOVWstorezero) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg2(idx, mem) return true } // match: (MOVWstorezeroidx ptr (SLLconst [2] idx) mem) // result: (MOVWstorezeroidx4 ptr idx mem) for { ptr := v_0 if v_1.Op != OpARM64SLLconst || auxIntToInt64(v_1.AuxInt) != 2 { break } idx := v_1.Args[0] mem := v_2 v.reset(OpARM64MOVWstorezeroidx4) v.AddArg3(ptr, idx, mem) return true } // match: (MOVWstorezeroidx (SLLconst [2] idx) ptr mem) // result: (MOVWstorezeroidx4 ptr idx mem) for { if v_0.Op != OpARM64SLLconst || auxIntToInt64(v_0.AuxInt) != 2 { break } idx := v_0.Args[0] ptr := v_1 mem := v_2 v.reset(OpARM64MOVWstorezeroidx4) v.AddArg3(ptr, idx, mem) return true } return false } func rewriteValueARM64_OpARM64MOVWstorezeroidx4(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (MOVWstorezeroidx4 ptr (MOVDconst [c]) mem) // cond: is32Bit(c<<2) // result: (MOVWstorezero [int32(c<<2)] ptr mem) for { ptr := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) mem := v_2 if !(is32Bit(c << 2)) { break } v.reset(OpARM64MOVWstorezero) v.AuxInt = int32ToAuxInt(int32(c << 2)) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64MSUB(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (MSUB a x (MOVDconst [-1])) // result: (ADD a x) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != -1 { break } v.reset(OpARM64ADD) v.AddArg2(a, x) return true } // match: (MSUB a _ (MOVDconst [0])) // result: a for { a := v_0 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } v.copyOf(a) return true } // match: (MSUB a x (MOVDconst [1])) // result: (SUB a x) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 1 { break } v.reset(OpARM64SUB) v.AddArg2(a, x) return true } // match: (MSUB a x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (SUBshiftLL a x [log64(c)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c)) v.AddArg2(a, x) return true } // match: (MSUB a x (MOVDconst [c])) // cond: isPowerOfTwo(c-1) && c>=3 // result: (SUB a (ADDshiftLL x x [log64(c-1)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c-1) && c >= 3) { break } v.reset(OpARM64SUB) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c - 1)) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a x (MOVDconst [c])) // cond: isPowerOfTwo(c+1) && c>=7 // result: (ADD a (SUBshiftLL x x [log64(c+1)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c+1) && c >= 7) { break } v.reset(OpARM64ADD) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c + 1)) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a x (MOVDconst [c])) // cond: c%3 == 0 && isPowerOfTwo(c/3) // result: (ADDshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%3 == 0 && isPowerOfTwo(c/3)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 3)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a x (MOVDconst [c])) // cond: c%5 == 0 && isPowerOfTwo(c/5) // result: (SUBshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%5 == 0 && isPowerOfTwo(c/5)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 5)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a x (MOVDconst [c])) // cond: c%7 == 0 && isPowerOfTwo(c/7) // result: (ADDshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%7 == 0 && isPowerOfTwo(c/7)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 7)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a x (MOVDconst [c])) // cond: c%9 == 0 && isPowerOfTwo(c/9) // result: (SUBshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%9 == 0 && isPowerOfTwo(c/9)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 9)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a (MOVDconst [-1]) x) // result: (ADD a x) for { a := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != -1 { break } x := v_2 v.reset(OpARM64ADD) v.AddArg2(a, x) return true } // match: (MSUB a (MOVDconst [0]) _) // result: a for { a := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { break } v.copyOf(a) return true } // match: (MSUB a (MOVDconst [1]) x) // result: (SUB a x) for { a := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { break } x := v_2 v.reset(OpARM64SUB) v.AddArg2(a, x) return true } // match: (MSUB a (MOVDconst [c]) x) // cond: isPowerOfTwo(c) // result: (SUBshiftLL a x [log64(c)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c)) v.AddArg2(a, x) return true } // match: (MSUB a (MOVDconst [c]) x) // cond: isPowerOfTwo(c-1) && c>=3 // result: (SUB a (ADDshiftLL x x [log64(c-1)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c-1) && c >= 3) { break } v.reset(OpARM64SUB) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c - 1)) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a (MOVDconst [c]) x) // cond: isPowerOfTwo(c+1) && c>=7 // result: (ADD a (SUBshiftLL x x [log64(c+1)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c+1) && c >= 7) { break } v.reset(OpARM64ADD) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c + 1)) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a (MOVDconst [c]) x) // cond: c%3 == 0 && isPowerOfTwo(c/3) // result: (ADDshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%3 == 0 && isPowerOfTwo(c/3)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 3)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a (MOVDconst [c]) x) // cond: c%5 == 0 && isPowerOfTwo(c/5) // result: (SUBshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%5 == 0 && isPowerOfTwo(c/5)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 5)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a (MOVDconst [c]) x) // cond: c%7 == 0 && isPowerOfTwo(c/7) // result: (ADDshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%7 == 0 && isPowerOfTwo(c/7)) { break } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 7)) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB a (MOVDconst [c]) x) // cond: c%9 == 0 && isPowerOfTwo(c/9) // result: (SUBshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%9 == 0 && isPowerOfTwo(c/9)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(log64(c / 9)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg2(a, v0) return true } // match: (MSUB (MOVDconst [c]) x y) // result: (ADDconst [c] (MNEG x y)) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 y := v_2 v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64MNEG, x.Type) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (MSUB a (MOVDconst [c]) (MOVDconst [d])) // result: (SUBconst [c*d] a) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if v_2.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_2.AuxInt) v.reset(OpARM64SUBconst) v.AuxInt = int64ToAuxInt(c * d) v.AddArg(a) return true } return false } func rewriteValueARM64_OpARM64MSUBW(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (MSUBW a x (MOVDconst [c])) // cond: int32(c)==-1 // result: (MOVWUreg (ADD a x)) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(int32(c) == -1) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADD, a.Type) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MSUBW a _ (MOVDconst [c])) // cond: int32(c)==0 // result: (MOVWUreg a) for { a := v_0 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(int32(c) == 0) { break } v.reset(OpARM64MOVWUreg) v.AddArg(a) return true } // match: (MSUBW a x (MOVDconst [c])) // cond: int32(c)==1 // result: (MOVWUreg (SUB a x)) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(int32(c) == 1) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUB, a.Type) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MSUBW a x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (MOVWUreg (SUBshiftLL a x [log64(c)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c)) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MSUBW a x (MOVDconst [c])) // cond: isPowerOfTwo(c-1) && int32(c)>=3 // result: (MOVWUreg (SUB a (ADDshiftLL x x [log64(c-1)]))) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c-1) && int32(c) >= 3) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUB, a.Type) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c - 1)) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a x (MOVDconst [c])) // cond: isPowerOfTwo(c+1) && int32(c)>=7 // result: (MOVWUreg (ADD a (SUBshiftLL x x [log64(c+1)]))) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(isPowerOfTwo(c+1) && int32(c) >= 7) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADD, a.Type) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c + 1)) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a x (MOVDconst [c])) // cond: c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c) // result: (MOVWUreg (ADDshiftLL a (SUBshiftLL x x [2]) [log64(c/3)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 3)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a x (MOVDconst [c])) // cond: c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c) // result: (MOVWUreg (SUBshiftLL a (ADDshiftLL x x [2]) [log64(c/5)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 5)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a x (MOVDconst [c])) // cond: c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c) // result: (MOVWUreg (ADDshiftLL a (SUBshiftLL x x [3]) [log64(c/7)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 7)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a x (MOVDconst [c])) // cond: c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c) // result: (MOVWUreg (SUBshiftLL a (ADDshiftLL x x [3]) [log64(c/9)])) for { a := v_0 x := v_1 if v_2.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_2.AuxInt) if !(c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 9)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) x) // cond: int32(c)==-1 // result: (MOVWUreg (ADD a x)) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(int32(c) == -1) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADD, a.Type) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) _) // cond: int32(c)==0 // result: (MOVWUreg a) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if !(int32(c) == 0) { break } v.reset(OpARM64MOVWUreg) v.AddArg(a) return true } // match: (MSUBW a (MOVDconst [c]) x) // cond: int32(c)==1 // result: (MOVWUreg (SUB a x)) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(int32(c) == 1) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUB, a.Type) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) x) // cond: isPowerOfTwo(c) // result: (MOVWUreg (SUBshiftLL a x [log64(c)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c)) v0.AddArg2(a, x) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) x) // cond: isPowerOfTwo(c-1) && int32(c)>=3 // result: (MOVWUreg (SUB a (ADDshiftLL x x [log64(c-1)]))) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c-1) && int32(c) >= 3) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUB, a.Type) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c - 1)) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) x) // cond: isPowerOfTwo(c+1) && int32(c)>=7 // result: (MOVWUreg (ADD a (SUBshiftLL x x [log64(c+1)]))) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(isPowerOfTwo(c+1) && int32(c) >= 7) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADD, a.Type) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(log64(c + 1)) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) x) // cond: c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c) // result: (MOVWUreg (ADDshiftLL a (SUBshiftLL x x [2]) [log64(c/3)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 3)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) x) // cond: c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c) // result: (MOVWUreg (SUBshiftLL a (ADDshiftLL x x [2]) [log64(c/5)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 5)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) x) // cond: c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c) // result: (MOVWUreg (ADDshiftLL a (SUBshiftLL x x [3]) [log64(c/7)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 7)) v1 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) x) // cond: c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c) // result: (MOVWUreg (SUBshiftLL a (ADDshiftLL x x [3]) [log64(c/9)])) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) x := v_2 if !(c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c)) { break } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBshiftLL, a.Type) v0.AuxInt = int64ToAuxInt(log64(c / 9)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (MSUBW (MOVDconst [c]) x y) // result: (MOVWUreg (ADDconst [c] (MNEGW x y))) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 y := v_2 v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDconst, x.Type) v0.AuxInt = int64ToAuxInt(c) v1 := b.NewValue0(v.Pos, OpARM64MNEGW, x.Type) v1.AddArg2(x, y) v0.AddArg(v1) v.AddArg(v0) return true } // match: (MSUBW a (MOVDconst [c]) (MOVDconst [d])) // result: (MOVWUreg (SUBconst [c*d] a)) for { a := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if v_2.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_2.AuxInt) v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SUBconst, a.Type) v0.AuxInt = int64ToAuxInt(c * d) v0.AddArg(a) v.AddArg(v0) return true } return false } func rewriteValueARM64_OpARM64MUL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (MUL (NEG x) y) // result: (MNEG x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64NEG { continue } x := v_0.Args[0] y := v_1 v.reset(OpARM64MNEG) v.AddArg2(x, y) return true } break } // match: (MUL x (MOVDconst [-1])) // result: (NEG 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 != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != -1 { continue } v.reset(OpARM64NEG) v.AddArg(x) return true } break } // match: (MUL _ (MOVDconst [0])) // result: (MOVDconst [0]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 { continue } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } break } // match: (MUL x (MOVDconst [1])) // result: 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 != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { continue } v.copyOf(x) return true } break } // match: (MUL x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (SLLconst [log64(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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c)) { continue } v.reset(OpARM64SLLconst) v.AuxInt = int64ToAuxInt(log64(c)) v.AddArg(x) return true } break } // match: (MUL x (MOVDconst [c])) // cond: isPowerOfTwo(c-1) && c >= 3 // result: (ADDshiftLL x x [log64(c-1)]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c-1) && c >= 3) { continue } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c - 1)) v.AddArg2(x, x) return true } break } // match: (MUL x (MOVDconst [c])) // cond: isPowerOfTwo(c+1) && c >= 7 // result: (ADDshiftLL (NEG x) x [log64(c+1)]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c+1) && c >= 7) { continue } v.reset(OpARM64ADDshiftLL) v.AuxInt = int64ToAuxInt(log64(c + 1)) v0 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v0.AddArg(x) v.AddArg2(v0, x) return true } break } // match: (MUL x (MOVDconst [c])) // cond: c%3 == 0 && isPowerOfTwo(c/3) // result: (SLLconst [log64(c/3)] (ADDshiftLL x x [1])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%3 == 0 && isPowerOfTwo(c/3)) { continue } v.reset(OpARM64SLLconst) v.AuxInt = int64ToAuxInt(log64(c / 3)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(1) v0.AddArg2(x, x) v.AddArg(v0) return true } break } // match: (MUL x (MOVDconst [c])) // cond: c%5 == 0 && isPowerOfTwo(c/5) // result: (SLLconst [log64(c/5)] (ADDshiftLL x x [2])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%5 == 0 && isPowerOfTwo(c/5)) { continue } v.reset(OpARM64SLLconst) v.AuxInt = int64ToAuxInt(log64(c / 5)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(2) v0.AddArg2(x, x) v.AddArg(v0) return true } break } // match: (MUL x (MOVDconst [c])) // cond: c%7 == 0 && isPowerOfTwo(c/7) // result: (SLLconst [log64(c/7)] (ADDshiftLL (NEG x) x [3])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%7 == 0 && isPowerOfTwo(c/7)) { continue } v.reset(OpARM64SLLconst) v.AuxInt = int64ToAuxInt(log64(c / 7)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v1 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v1.AddArg(x) v0.AddArg2(v1, x) v.AddArg(v0) return true } break } // match: (MUL x (MOVDconst [c])) // cond: c%9 == 0 && isPowerOfTwo(c/9) // result: (SLLconst [log64(c/9)] (ADDshiftLL x x [3])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%9 == 0 && isPowerOfTwo(c/9)) { continue } v.reset(OpARM64SLLconst) v.AuxInt = int64ToAuxInt(log64(c / 9)) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(3) v0.AddArg2(x, x) v.AddArg(v0) return true } break } // match: (MUL (MOVDconst [c]) (MOVDconst [d])) // result: (MOVDconst [c*d]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { continue } d := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(c * d) return true } break } return false } func rewriteValueARM64_OpARM64MULW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (MULW (NEG x) y) // result: (MNEGW x y) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64NEG { continue } x := v_0.Args[0] y := v_1 v.reset(OpARM64MNEGW) v.AddArg2(x, y) return true } break } // match: (MULW x (MOVDconst [c])) // cond: int32(c)==-1 // result: (MOVWUreg (NEG 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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(int32(c) == -1) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v0.AddArg(x) v.AddArg(v0) return true } break } // match: (MULW _ (MOVDconst [c])) // cond: int32(c)==0 // result: (MOVDconst [0]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(int32(c) == 0) { continue } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } break } // match: (MULW x (MOVDconst [c])) // cond: int32(c)==1 // result: (MOVWUreg 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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(int32(c) == 1) { continue } v.reset(OpARM64MOVWUreg) v.AddArg(x) return true } break } // match: (MULW x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (MOVWUreg (SLLconst [log64(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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c)) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c)) v0.AddArg(x) v.AddArg(v0) return true } break } // match: (MULW x (MOVDconst [c])) // cond: isPowerOfTwo(c-1) && int32(c) >= 3 // result: (MOVWUreg (ADDshiftLL x x [log64(c-1)])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c-1) && int32(c) >= 3) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c - 1)) v0.AddArg2(x, x) v.AddArg(v0) return true } break } // match: (MULW x (MOVDconst [c])) // cond: isPowerOfTwo(c+1) && int32(c) >= 7 // result: (MOVWUreg (ADDshiftLL (NEG x) x [log64(c+1)])) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c+1) && int32(c) >= 7) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v0.AuxInt = int64ToAuxInt(log64(c + 1)) v1 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v1.AddArg(x) v0.AddArg2(v1, x) v.AddArg(v0) return true } break } // match: (MULW x (MOVDconst [c])) // cond: c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c) // result: (MOVWUreg (SLLconst [log64(c/3)] (ADDshiftLL x x [1]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%3 == 0 && isPowerOfTwo(c/3) && is32Bit(c)) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c / 3)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(1) v1.AddArg2(x, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MULW x (MOVDconst [c])) // cond: c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c) // result: (MOVWUreg (SLLconst [log64(c/5)] (ADDshiftLL x x [2]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%5 == 0 && isPowerOfTwo(c/5) && is32Bit(c)) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c / 5)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(2) v1.AddArg2(x, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MULW x (MOVDconst [c])) // cond: c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c) // result: (MOVWUreg (SLLconst [log64(c/7)] (ADDshiftLL (NEG x) x [3]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%7 == 0 && isPowerOfTwo(c/7) && is32Bit(c)) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c / 7)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v2 := b.NewValue0(v.Pos, OpARM64NEG, x.Type) v2.AddArg(x) v1.AddArg2(v2, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MULW x (MOVDconst [c])) // cond: c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c) // result: (MOVWUreg (SLLconst [log64(c/9)] (ADDshiftLL x x [3]))) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x := v_0 if v_1.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) if !(c%9 == 0 && isPowerOfTwo(c/9) && is32Bit(c)) { continue } v.reset(OpARM64MOVWUreg) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(log64(c / 9)) v1 := b.NewValue0(v.Pos, OpARM64ADDshiftLL, x.Type) v1.AuxInt = int64ToAuxInt(3) v1.AddArg2(x, x) v0.AddArg(v1) v.AddArg(v0) return true } break } // match: (MULW (MOVDconst [c]) (MOVDconst [d])) // result: (MOVDconst [int64(uint32(c*d))]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { if v_0.Op != OpARM64MOVDconst { continue } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { continue } d := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint32(c * d))) return true } break } return false } func rewriteValueARM64_OpARM64MVN(v *Value) bool { v_0 := v.Args[0] // match: (MVN (XOR x y)) // result: (EON x y) for { if v_0.Op != OpARM64XOR { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64EON) v.AddArg2(x, y) return true } // match: (MVN (MOVDconst [c])) // result: (MOVDconst [^c]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(^c) return true } // match: (MVN x:(SLLconst [c] y)) // cond: clobberIfDead(x) // result: (MVNshiftLL [c] y) for { x := v_0 if x.Op != OpARM64SLLconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(clobberIfDead(x)) { break } v.reset(OpARM64MVNshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg(y) return true } // match: (MVN x:(SRLconst [c] y)) // cond: clobberIfDead(x) // result: (MVNshiftRL [c] y) for { x := v_0 if x.Op != OpARM64SRLconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(clobberIfDead(x)) { break } v.reset(OpARM64MVNshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg(y) return true } // match: (MVN x:(SRAconst [c] y)) // cond: clobberIfDead(x) // result: (MVNshiftRA [c] y) for { x := v_0 if x.Op != OpARM64SRAconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(clobberIfDead(x)) { break } v.reset(OpARM64MVNshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg(y) return true } // match: (MVN x:(RORconst [c] y)) // cond: clobberIfDead(x) // result: (MVNshiftRO [c] y) for { x := v_0 if x.Op != OpARM64RORconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(clobberIfDead(x)) { break } v.reset(OpARM64MVNshiftRO) v.AuxInt = int64ToAuxInt(c) v.AddArg(y) return true } return false } func rewriteValueARM64_OpARM64MVNshiftLL(v *Value) bool { v_0 := v.Args[0] // match: (MVNshiftLL (MOVDconst [c]) [d]) // result: (MOVDconst [^int64(uint64(c)<>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(^(c >> uint64(d))) return true } return false } func rewriteValueARM64_OpARM64MVNshiftRL(v *Value) bool { v_0 := v.Args[0] // match: (MVNshiftRL (MOVDconst [c]) [d]) // result: (MOVDconst [^int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(^int64(uint64(c) >> uint64(d))) return true } return false } func rewriteValueARM64_OpARM64MVNshiftRO(v *Value) bool { v_0 := v.Args[0] // match: (MVNshiftRO (MOVDconst [c]) [d]) // result: (MOVDconst [^rotateRight64(c, d)]) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(^rotateRight64(c, d)) return true } return false } func rewriteValueARM64_OpARM64NEG(v *Value) bool { v_0 := v.Args[0] // match: (NEG (MUL x y)) // result: (MNEG x y) for { if v_0.Op != OpARM64MUL { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64MNEG) v.AddArg2(x, y) return true } // match: (NEG (MULW x y)) // cond: v.Type.Size() <= 4 // result: (MNEGW x y) for { if v_0.Op != OpARM64MULW { break } y := v_0.Args[1] x := v_0.Args[0] if !(v.Type.Size() <= 4) { break } v.reset(OpARM64MNEGW) v.AddArg2(x, y) return true } // match: (NEG (NEG x)) // result: x for { if v_0.Op != OpARM64NEG { break } x := v_0.Args[0] v.copyOf(x) return true } // match: (NEG (MOVDconst [c])) // result: (MOVDconst [-c]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-c) return true } // match: (NEG x:(SLLconst [c] y)) // cond: clobberIfDead(x) // result: (NEGshiftLL [c] y) for { x := v_0 if x.Op != OpARM64SLLconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(clobberIfDead(x)) { break } v.reset(OpARM64NEGshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg(y) return true } // match: (NEG x:(SRLconst [c] y)) // cond: clobberIfDead(x) // result: (NEGshiftRL [c] y) for { x := v_0 if x.Op != OpARM64SRLconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(clobberIfDead(x)) { break } v.reset(OpARM64NEGshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg(y) return true } // match: (NEG x:(SRAconst [c] y)) // cond: clobberIfDead(x) // result: (NEGshiftRA [c] y) for { x := v_0 if x.Op != OpARM64SRAconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(clobberIfDead(x)) { break } v.reset(OpARM64NEGshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg(y) return true } return false } func rewriteValueARM64_OpARM64NEGshiftLL(v *Value) bool { v_0 := v.Args[0] // match: (NEGshiftLL (MOVDconst [c]) [d]) // result: (MOVDconst [-int64(uint64(c)<>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-(c >> uint64(d))) return true } return false } func rewriteValueARM64_OpARM64NEGshiftRL(v *Value) bool { v_0 := v.Args[0] // match: (NEGshiftRL (MOVDconst [c]) [d]) // result: (MOVDconst [-int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-int64(uint64(c) >> uint64(d))) return true } return false } func rewriteValueARM64_OpARM64NotEqual(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (NotEqual (CMPconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (NotEqual (TST x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (NotEqual (CMPWconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (NotEqual (TSTWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (NotEqual (CMPWconst [0] z:(AND x y))) // cond: z.Uses == 1 // result: (NotEqual (TSTW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (NotEqual (CMPconst [0] x:(ANDconst [c] y))) // cond: x.Uses == 1 // result: (NotEqual (TSTconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (NotEqual (CMP x z:(NEG y))) // cond: z.Uses == 1 // result: (NotEqual (CMN x y)) for { if v_0.Op != OpARM64CMP { break } _ = v_0.Args[1] x := v_0.Args[0] z := v_0.Args[1] if z.Op != OpARM64NEG { break } y := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (NotEqual (CMPW x z:(NEG y))) // cond: z.Uses == 1 // result: (NotEqual (CMNW x y)) for { if v_0.Op != OpARM64CMPW { break } _ = v_0.Args[1] x := v_0.Args[0] z := v_0.Args[1] if z.Op != OpARM64NEG { break } y := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (NotEqual (CMPconst [0] x:(ADDconst [c] y))) // cond: x.Uses == 1 // result: (NotEqual (CMNconst [c] y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) v.AddArg(v0) return true } // match: (NotEqual (CMPWconst [0] x:(ADDconst [c] y))) // cond: x.Uses == 1 // result: (NotEqual (CMNWconst [int32(c)] y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) v.AddArg(v0) return true } // match: (NotEqual (CMPconst [0] z:(ADD x y))) // cond: z.Uses == 1 // result: (NotEqual (CMN x y)) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (NotEqual (CMPWconst [0] z:(ADD x y))) // cond: z.Uses == 1 // result: (NotEqual (CMNW x y)) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } y := z.Args[1] x := z.Args[0] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } // match: (NotEqual (CMPconst [0] z:(MADD a x y))) // cond: z.Uses == 1 // result: (NotEqual (CMN a (MUL x y))) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (NotEqual (CMPconst [0] z:(MSUB a x y))) // cond: z.Uses == 1 // result: (NotEqual (CMP a (MUL x y))) for { if v_0.Op != OpARM64CMPconst || auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (NotEqual (CMPWconst [0] z:(MADDW a x y))) // cond: z.Uses == 1 // result: (NotEqual (CMNW a (MULW x y))) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (NotEqual (CMPWconst [0] z:(MSUBW a x y))) // cond: z.Uses == 1 // result: (NotEqual (CMPW a (MULW x y))) for { if v_0.Op != OpARM64CMPWconst || auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) v.AddArg(v0) return true } // match: (NotEqual (FlagConstant [fc])) // result: (MOVDconst [b2i(fc.ne())]) for { if v_0.Op != OpARM64FlagConstant { break } fc := auxIntToFlagConstant(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(fc.ne())) return true } // match: (NotEqual (InvertFlags x)) // result: (NotEqual x) for { if v_0.Op != OpARM64InvertFlags { break } x := v_0.Args[0] v.reset(OpARM64NotEqual) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64OR(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (OR x (MOVDconst [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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ORconst) 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 } // match: (OR x (MVN y)) // result: (ORN 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 != OpARM64MVN { continue } y := v_1.Args[0] v.reset(OpARM64ORN) v.AddArg2(x, y) return true } break } // match: (OR x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (ORshiftLL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ORshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (OR x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (ORshiftRL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ORshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (OR x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (ORshiftRA x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ORshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (OR x0 x1:(RORconst [c] y)) // cond: clobberIfDead(x1) // result: (ORshiftRO x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64RORconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64ORshiftRO) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (OR (UBFIZ [bfc] x) (ANDconst [ac] y)) // cond: ac == ^((1<>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(^(c >> uint64(d))) v.AddArg(x) return true } // match: (ORNshiftRA (SRAconst x [c]) x [c]) // result: (MOVDconst [-1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRAconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-1) return true } return false } func rewriteValueARM64_OpARM64ORNshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (ORNshiftRL x (MOVDconst [c]) [d]) // result: (ORconst x [^int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(^int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } // match: (ORNshiftRL (SRLconst x [c]) x [c]) // result: (MOVDconst [-1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-1) return true } return false } func rewriteValueARM64_OpARM64ORNshiftRO(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (ORNshiftRO x (MOVDconst [c]) [d]) // result: (ORconst x [^rotateRight64(c, d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(^rotateRight64(c, d)) v.AddArg(x) return true } // match: (ORNshiftRO (RORconst x [c]) x [c]) // result: (MOVDconst [-1]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64RORconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-1) return true } return false } func rewriteValueARM64_OpARM64ORconst(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: (MOVDconst [-1]) for { if auxIntToInt64(v.AuxInt) != -1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(-1) return true } // match: (ORconst [c] (MOVDconst [d])) // result: (MOVDconst [c|d]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(c | d) return true } // match: (ORconst [c] (ORconst [d] x)) // result: (ORconst [c|d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64ORconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(c | d) v.AddArg(x) return true } // match: (ORconst [c1] (ANDconst [c2] x)) // cond: c2|c1 == ^0 // result: (ORconst [c1] x) for { c1 := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(c2|c1 == ^0) { break } v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(c1) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64ORshiftLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (ORshiftLL (MOVDconst [c]) x [d]) // result: (ORconst [c] (SLLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ORshiftLL x (MOVDconst [c]) [d]) // result: (ORconst x [int64(uint64(c)< [8] (UBFX [armBFAuxInt(8, 8)] x) x) // result: (REV16W x) for { if v.Type != typ.UInt16 || auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64UBFX || v_0.Type != typ.UInt16 || auxIntToArm64BitField(v_0.AuxInt) != armBFAuxInt(8, 8) { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64REV16W) v.AddArg(x) return true } // match: (ORshiftLL [8] (UBFX [armBFAuxInt(8, 24)] (ANDconst [c1] x)) (ANDconst [c2] x)) // cond: uint32(c1) == 0xff00ff00 && uint32(c2) == 0x00ff00ff // result: (REV16W x) for { if auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64UBFX || auxIntToArm64BitField(v_0.AuxInt) != armBFAuxInt(8, 24) { break } v_0_0 := v_0.Args[0] if v_0_0.Op != OpARM64ANDconst { break } c1 := auxIntToInt64(v_0_0.AuxInt) x := v_0_0.Args[0] if v_1.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_1.AuxInt) if x != v_1.Args[0] || !(uint32(c1) == 0xff00ff00 && uint32(c2) == 0x00ff00ff) { break } v.reset(OpARM64REV16W) v.AddArg(x) return true } // match: (ORshiftLL [8] (SRLconst [8] (ANDconst [c1] x)) (ANDconst [c2] x)) // cond: (uint64(c1) == 0xff00ff00ff00ff00 && uint64(c2) == 0x00ff00ff00ff00ff) // result: (REV16 x) for { if auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != 8 { break } v_0_0 := v_0.Args[0] if v_0_0.Op != OpARM64ANDconst { break } c1 := auxIntToInt64(v_0_0.AuxInt) x := v_0_0.Args[0] if v_1.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_1.AuxInt) if x != v_1.Args[0] || !(uint64(c1) == 0xff00ff00ff00ff00 && uint64(c2) == 0x00ff00ff00ff00ff) { break } v.reset(OpARM64REV16) v.AddArg(x) return true } // match: (ORshiftLL [8] (SRLconst [8] (ANDconst [c1] x)) (ANDconst [c2] x)) // cond: (uint64(c1) == 0xff00ff00 && uint64(c2) == 0x00ff00ff) // result: (REV16 (ANDconst [0xffffffff] x)) for { if auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != 8 { break } v_0_0 := v_0.Args[0] if v_0_0.Op != OpARM64ANDconst { break } c1 := auxIntToInt64(v_0_0.AuxInt) x := v_0_0.Args[0] if v_1.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_1.AuxInt) if x != v_1.Args[0] || !(uint64(c1) == 0xff00ff00 && uint64(c2) == 0x00ff00ff) { break } v.reset(OpARM64REV16) v0 := b.NewValue0(v.Pos, OpARM64ANDconst, x.Type) v0.AuxInt = int64ToAuxInt(0xffffffff) v0.AddArg(x) v.AddArg(v0) return true } // match: ( ORshiftLL [c] (SRLconst x [64-c]) x2) // result: (EXTRconst [64-c] x2 x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != 64-c { break } x := v_0.Args[0] x2 := v_1 v.reset(OpARM64EXTRconst) v.AuxInt = int64ToAuxInt(64 - c) v.AddArg2(x2, x) return true } // match: ( ORshiftLL [c] (UBFX [bfc] x) x2) // cond: c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c) // result: (EXTRWconst [32-c] x2 x) for { t := v.Type c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64UBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] x2 := v_1 if !(c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c)) { break } v.reset(OpARM64EXTRWconst) v.AuxInt = int64ToAuxInt(32 - c) v.AddArg2(x2, x) return true } // match: (ORshiftLL [s] (ANDconst [xc] x) (ANDconst [yc] y)) // cond: xc == ^(yc << s) && yc & (yc+1) == 0 && yc > 0 && s+log64(yc+1) <= 64 // result: (BFI [armBFAuxInt(s, log64(yc+1))] x y) for { s := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64ANDconst { break } xc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if v_1.Op != OpARM64ANDconst { break } yc := auxIntToInt64(v_1.AuxInt) y := v_1.Args[0] if !(xc == ^(yc< 0 && s+log64(yc+1) <= 64) { break } v.reset(OpARM64BFI) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(s, log64(yc+1))) v.AddArg2(x, y) return true } // match: (ORshiftLL [sc] (UBFX [bfc] x) (SRLconst [sc] y)) // cond: sc == bfc.width() // result: (BFXIL [bfc] y x) for { sc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64UBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if v_1.Op != OpARM64SRLconst || auxIntToInt64(v_1.AuxInt) != sc { break } y := v_1.Args[0] if !(sc == bfc.width()) { break } v.reset(OpARM64BFXIL) v.AuxInt = arm64BitFieldToAuxInt(bfc) v.AddArg2(y, x) return true } return false } func rewriteValueARM64_OpARM64ORshiftRA(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (ORshiftRA (MOVDconst [c]) x [d]) // result: (ORconst [c] (SRAconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRAconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ORshiftRA x (MOVDconst [c]) [d]) // result: (ORconst x [c>>uint64(d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(c >> uint64(d)) v.AddArg(x) return true } // match: (ORshiftRA y:(SRAconst x [c]) x [c]) // result: y for { c := auxIntToInt64(v.AuxInt) y := v_0 if y.Op != OpARM64SRAconst || auxIntToInt64(y.AuxInt) != c { break } x := y.Args[0] if x != v_1 { break } v.copyOf(y) return true } return false } func rewriteValueARM64_OpARM64ORshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (ORshiftRL (MOVDconst [c]) x [d]) // result: (ORconst [c] (SRLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ORshiftRL x (MOVDconst [c]) [d]) // result: (ORconst x [int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } // match: (ORshiftRL y:(SRLconst x [c]) x [c]) // result: y for { c := auxIntToInt64(v.AuxInt) y := v_0 if y.Op != OpARM64SRLconst || auxIntToInt64(y.AuxInt) != c { break } x := y.Args[0] if x != v_1 { break } v.copyOf(y) return true } // match: (ORshiftRL [rc] (ANDconst [ac] x) (SLLconst [lc] y)) // cond: lc > rc && ac == ^((1< rc && ac == ^((1< x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64RORconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (ORshiftRO x (MOVDconst [c]) [d]) // result: (ORconst x [rotateRight64(c, d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64ORconst) v.AuxInt = int64ToAuxInt(rotateRight64(c, d)) v.AddArg(x) return true } // match: (ORshiftRO y:(RORconst x [c]) x [c]) // result: y for { c := auxIntToInt64(v.AuxInt) y := v_0 if y.Op != OpARM64RORconst || auxIntToInt64(y.AuxInt) != c { break } x := y.Args[0] if x != v_1 { break } v.copyOf(y) return true } return false } func rewriteValueARM64_OpARM64REV(v *Value) bool { v_0 := v.Args[0] // match: (REV (REV p)) // result: p for { if v_0.Op != OpARM64REV { break } p := v_0.Args[0] v.copyOf(p) return true } return false } func rewriteValueARM64_OpARM64REVW(v *Value) bool { v_0 := v.Args[0] // match: (REVW (REVW p)) // result: p for { if v_0.Op != OpARM64REVW { break } p := v_0.Args[0] v.copyOf(p) return true } return false } func rewriteValueARM64_OpARM64ROR(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (ROR x (MOVDconst [c])) // result: (RORconst x [c&63]) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64RORconst) v.AuxInt = int64ToAuxInt(c & 63) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64RORW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (RORW x (MOVDconst [c])) // result: (RORWconst x [c&31]) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64RORWconst) v.AuxInt = int64ToAuxInt(c & 31) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64SBCSflags(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (SBCSflags x y (Select1 (NEGSflags (NEG (NGCzerocarry bo))))) // result: (SBCSflags x y bo) for { x := v_0 y := v_1 if v_2.Op != OpSelect1 || v_2.Type != types.TypeFlags { break } v_2_0 := v_2.Args[0] if v_2_0.Op != OpARM64NEGSflags { break } v_2_0_0 := v_2_0.Args[0] if v_2_0_0.Op != OpARM64NEG || v_2_0_0.Type != typ.UInt64 { break } v_2_0_0_0 := v_2_0_0.Args[0] if v_2_0_0_0.Op != OpARM64NGCzerocarry || v_2_0_0_0.Type != typ.UInt64 { break } bo := v_2_0_0_0.Args[0] v.reset(OpARM64SBCSflags) v.AddArg3(x, y, bo) return true } // match: (SBCSflags x y (Select1 (NEGSflags (MOVDconst [0])))) // result: (SUBSflags x y) for { x := v_0 y := v_1 if v_2.Op != OpSelect1 || v_2.Type != types.TypeFlags { break } v_2_0 := v_2.Args[0] if v_2_0.Op != OpARM64NEGSflags { break } v_2_0_0 := v_2_0.Args[0] if v_2_0_0.Op != OpARM64MOVDconst || auxIntToInt64(v_2_0_0.AuxInt) != 0 { break } v.reset(OpARM64SUBSflags) v.AddArg2(x, y) return true } return false } func rewriteValueARM64_OpARM64SBFX(v *Value) bool { v_0 := v.Args[0] // match: (SBFX [bfc] s:(SLLconst [sc] x)) // cond: s.Uses == 1 && sc <= bfc.lsb() // result: (SBFX [armBFAuxInt(bfc.lsb() - sc, bfc.width())] x) for { bfc := auxIntToArm64BitField(v.AuxInt) s := v_0 if s.Op != OpARM64SLLconst { break } sc := auxIntToInt64(s.AuxInt) x := s.Args[0] if !(s.Uses == 1 && sc <= bfc.lsb()) { break } v.reset(OpARM64SBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(bfc.lsb()-sc, bfc.width())) v.AddArg(x) return true } // match: (SBFX [bfc] s:(SLLconst [sc] x)) // cond: s.Uses == 1 && sc > bfc.lsb() // result: (SBFIZ [armBFAuxInt(sc - bfc.lsb(), bfc.width() - (sc-bfc.lsb()))] x) for { bfc := auxIntToArm64BitField(v.AuxInt) s := v_0 if s.Op != OpARM64SLLconst { break } sc := auxIntToInt64(s.AuxInt) x := s.Args[0] if !(s.Uses == 1 && sc > bfc.lsb()) { break } v.reset(OpARM64SBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(sc-bfc.lsb(), bfc.width()-(sc-bfc.lsb()))) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64SLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (SLL x (MOVDconst [c])) // result: (SLLconst x [c&63]) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64SLLconst) v.AuxInt = int64ToAuxInt(c & 63) v.AddArg(x) return true } // match: (SLL x (ANDconst [63] y)) // result: (SLL x y) for { x := v_0 if v_1.Op != OpARM64ANDconst || auxIntToInt64(v_1.AuxInt) != 63 { break } y := v_1.Args[0] v.reset(OpARM64SLL) v.AddArg2(x, y) return true } return false } func rewriteValueARM64_OpARM64SLLconst(v *Value) bool { v_0 := v.Args[0] // match: (SLLconst [c] (MOVDconst [d])) // result: (MOVDconst [d<>uint64(c)]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(d >> uint64(c)) return true } // match: (SRAconst [rc] (SLLconst [lc] x)) // cond: lc > rc // result: (SBFIZ [armBFAuxInt(lc-rc, 64-lc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc > rc) { break } v.reset(OpARM64SBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(lc-rc, 64-lc)) v.AddArg(x) return true } // match: (SRAconst [rc] (SLLconst [lc] x)) // cond: lc <= rc // result: (SBFX [armBFAuxInt(rc-lc, 64-rc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc <= rc) { break } v.reset(OpARM64SBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc-lc, 64-rc)) v.AddArg(x) return true } // match: (SRAconst [rc] (MOVWreg x)) // cond: rc < 32 // result: (SBFX [armBFAuxInt(rc, 32-rc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVWreg { break } x := v_0.Args[0] if !(rc < 32) { break } v.reset(OpARM64SBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc, 32-rc)) v.AddArg(x) return true } // match: (SRAconst [rc] (MOVHreg x)) // cond: rc < 16 // result: (SBFX [armBFAuxInt(rc, 16-rc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVHreg { break } x := v_0.Args[0] if !(rc < 16) { break } v.reset(OpARM64SBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc, 16-rc)) v.AddArg(x) return true } // match: (SRAconst [rc] (MOVBreg x)) // cond: rc < 8 // result: (SBFX [armBFAuxInt(rc, 8-rc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVBreg { break } x := v_0.Args[0] if !(rc < 8) { break } v.reset(OpARM64SBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc, 8-rc)) v.AddArg(x) return true } // match: (SRAconst [sc] (SBFIZ [bfc] x)) // cond: sc < bfc.lsb() // result: (SBFIZ [armBFAuxInt(bfc.lsb()-sc, bfc.width())] x) for { sc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SBFIZ { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(sc < bfc.lsb()) { break } v.reset(OpARM64SBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(bfc.lsb()-sc, bfc.width())) v.AddArg(x) return true } // match: (SRAconst [sc] (SBFIZ [bfc] x)) // cond: sc >= bfc.lsb() && sc < bfc.lsb()+bfc.width() // result: (SBFX [armBFAuxInt(sc-bfc.lsb(), bfc.lsb()+bfc.width()-sc)] x) for { sc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SBFIZ { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(sc >= bfc.lsb() && sc < bfc.lsb()+bfc.width()) { break } v.reset(OpARM64SBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(sc-bfc.lsb(), bfc.lsb()+bfc.width()-sc)) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64SRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (SRL x (MOVDconst [c])) // result: (SRLconst x [c&63]) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64SRLconst) v.AuxInt = int64ToAuxInt(c & 63) v.AddArg(x) return true } // match: (SRL x (ANDconst [63] y)) // result: (SRL x y) for { x := v_0 if v_1.Op != OpARM64ANDconst || auxIntToInt64(v_1.AuxInt) != 63 { break } y := v_1.Args[0] v.reset(OpARM64SRL) v.AddArg2(x, y) return true } return false } func rewriteValueARM64_OpARM64SRLconst(v *Value) bool { v_0 := v.Args[0] // match: (SRLconst [c] (MOVDconst [d])) // result: (MOVDconst [int64(uint64(d)>>uint64(c))]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint64(d) >> uint64(c))) return true } // match: (SRLconst [c] (SLLconst [c] x)) // cond: 0 < c && c < 64 // result: (ANDconst [1<= 32 // result: (MOVDconst [0]) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVWUreg { break } if !(rc >= 32) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SRLconst [rc] (MOVHUreg x)) // cond: rc >= 16 // result: (MOVDconst [0]) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVHUreg { break } if !(rc >= 16) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SRLconst [rc] (MOVBUreg x)) // cond: rc >= 8 // result: (MOVDconst [0]) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVBUreg { break } if !(rc >= 8) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SRLconst [rc] (SLLconst [lc] x)) // cond: lc > rc // result: (UBFIZ [armBFAuxInt(lc-rc, 64-lc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc > rc) { break } v.reset(OpARM64UBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(lc-rc, 64-lc)) v.AddArg(x) return true } // match: (SRLconst [rc] (SLLconst [lc] x)) // cond: lc < rc // result: (UBFX [armBFAuxInt(rc-lc, 64-rc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SLLconst { break } lc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(lc < rc) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc-lc, 64-rc)) v.AddArg(x) return true } // match: (SRLconst [rc] (MOVWUreg x)) // cond: rc < 32 // result: (UBFX [armBFAuxInt(rc, 32-rc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVWUreg { break } x := v_0.Args[0] if !(rc < 32) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc, 32-rc)) v.AddArg(x) return true } // match: (SRLconst [rc] (MOVHUreg x)) // cond: rc < 16 // result: (UBFX [armBFAuxInt(rc, 16-rc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVHUreg { break } x := v_0.Args[0] if !(rc < 16) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc, 16-rc)) v.AddArg(x) return true } // match: (SRLconst [rc] (MOVBUreg x)) // cond: rc < 8 // result: (UBFX [armBFAuxInt(rc, 8-rc)] x) for { rc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVBUreg { break } x := v_0.Args[0] if !(rc < 8) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(rc, 8-rc)) v.AddArg(x) return true } // match: (SRLconst [sc] (ANDconst [ac] x)) // cond: isARM64BFMask(sc, ac, sc) // result: (UBFX [armBFAuxInt(sc, arm64BFWidth(ac, sc))] x) for { sc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64ANDconst { break } ac := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(isARM64BFMask(sc, ac, sc)) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(sc, arm64BFWidth(ac, sc))) v.AddArg(x) return true } // match: (SRLconst [sc] (UBFX [bfc] x)) // cond: sc < bfc.width() // result: (UBFX [armBFAuxInt(bfc.lsb()+sc, bfc.width()-sc)] x) for { sc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64UBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(sc < bfc.width()) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(bfc.lsb()+sc, bfc.width()-sc)) v.AddArg(x) return true } // match: (SRLconst [sc] (UBFIZ [bfc] x)) // cond: sc == bfc.lsb() // result: (ANDconst [1< bfc.lsb() && sc < bfc.lsb()+bfc.width() // result: (UBFX [armBFAuxInt(sc-bfc.lsb(), bfc.lsb()+bfc.width()-sc)] x) for { sc := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64UBFIZ { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] if !(sc > bfc.lsb() && sc < bfc.lsb()+bfc.width()) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(sc-bfc.lsb(), bfc.lsb()+bfc.width()-sc)) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64STP(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 config := b.Func.Config // match: (STP [off1] {sym} (ADDconst [off2] ptr) val1 val2 mem) // cond: is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (STP [off1+int32(off2)] {sym} ptr val1 val2 mem) for { off1 := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) if v_0.Op != OpARM64ADDconst { break } off2 := auxIntToInt64(v_0.AuxInt) ptr := v_0.Args[0] val1 := v_1 val2 := v_2 mem := v_3 if !(is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink)) { break } v.reset(OpARM64STP) v.AuxInt = int32ToAuxInt(off1 + int32(off2)) v.Aux = symToAux(sym) v.AddArg4(ptr, val1, val2, mem) return true } // match: (STP [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val1 val2 mem) // cond: canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink) // result: (STP [off1+off2] {mergeSym(sym1,sym2)} ptr val1 val2 mem) for { off1 := auxIntToInt32(v.AuxInt) sym1 := auxToSym(v.Aux) if v_0.Op != OpARM64MOVDaddr { break } off2 := auxIntToInt32(v_0.AuxInt) sym2 := auxToSym(v_0.Aux) ptr := v_0.Args[0] val1 := v_1 val2 := v_2 mem := v_3 if !(canMergeSym(sym1, sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_dynlink)) { break } v.reset(OpARM64STP) v.AuxInt = int32ToAuxInt(off1 + off2) v.Aux = symToAux(mergeSym(sym1, sym2)) v.AddArg4(ptr, val1, val2, mem) return true } // match: (STP [off] {sym} ptr (MOVDconst [0]) (MOVDconst [0]) mem) // result: (MOVQstorezero [off] {sym} ptr mem) for { off := auxIntToInt32(v.AuxInt) sym := auxToSym(v.Aux) ptr := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 0 || v_2.Op != OpARM64MOVDconst || auxIntToInt64(v_2.AuxInt) != 0 { break } mem := v_3 v.reset(OpARM64MOVQstorezero) v.AuxInt = int32ToAuxInt(off) v.Aux = symToAux(sym) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_OpARM64SUB(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (SUB x (MOVDconst [c])) // result: (SUBconst [c] x) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64SUBconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } // match: (SUB a l:(MUL x y)) // cond: l.Uses==1 && clobber(l) // result: (MSUB a x y) for { a := v_0 l := v_1 if l.Op != OpARM64MUL { break } y := l.Args[1] x := l.Args[0] if !(l.Uses == 1 && clobber(l)) { break } v.reset(OpARM64MSUB) v.AddArg3(a, x, y) return true } // match: (SUB a l:(MNEG x y)) // cond: l.Uses==1 && clobber(l) // result: (MADD a x y) for { a := v_0 l := v_1 if l.Op != OpARM64MNEG { break } y := l.Args[1] x := l.Args[0] if !(l.Uses == 1 && clobber(l)) { break } v.reset(OpARM64MADD) v.AddArg3(a, x, y) return true } // match: (SUB a l:(MULW x y)) // cond: v.Type.Size() <= 4 && l.Uses==1 && clobber(l) // result: (MSUBW a x y) for { a := v_0 l := v_1 if l.Op != OpARM64MULW { break } y := l.Args[1] x := l.Args[0] if !(v.Type.Size() <= 4 && l.Uses == 1 && clobber(l)) { break } v.reset(OpARM64MSUBW) v.AddArg3(a, x, y) return true } // match: (SUB a l:(MNEGW x y)) // cond: v.Type.Size() <= 4 && l.Uses==1 && clobber(l) // result: (MADDW a x y) for { a := v_0 l := v_1 if l.Op != OpARM64MNEGW { break } y := l.Args[1] x := l.Args[0] if !(v.Type.Size() <= 4 && l.Uses == 1 && clobber(l)) { break } v.reset(OpARM64MADDW) v.AddArg3(a, x, y) return true } // match: (SUB x x) // result: (MOVDconst [0]) for { x := v_0 if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (SUB x (SUB y z)) // result: (SUB (ADD x z) y) for { x := v_0 if v_1.Op != OpARM64SUB { break } z := v_1.Args[1] y := v_1.Args[0] v.reset(OpARM64SUB) v0 := b.NewValue0(v.Pos, OpARM64ADD, v.Type) v0.AddArg2(x, z) v.AddArg2(v0, y) return true } // match: (SUB (SUB x y) z) // result: (SUB x (ADD y z)) for { if v_0.Op != OpARM64SUB { break } y := v_0.Args[1] x := v_0.Args[0] z := v_1 v.reset(OpARM64SUB) v0 := b.NewValue0(v.Pos, OpARM64ADD, y.Type) v0.AddArg2(y, z) v.AddArg2(x, v0) return true } // match: (SUB x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (SUBshiftLL x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64SUBshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (SUB x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (SUBshiftRL x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64SUBshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } // match: (SUB x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (SUBshiftRA x0 y [c]) for { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { break } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { break } v.reset(OpARM64SUBshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } return false } func rewriteValueARM64_OpARM64SUBconst(v *Value) bool { v_0 := v.Args[0] // match: (SUBconst [0] x) // result: x for { if auxIntToInt64(v.AuxInt) != 0 { break } x := v_0 v.copyOf(x) return true } // match: (SUBconst [c] (MOVDconst [d])) // result: (MOVDconst [d-c]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(d - c) return true } // match: (SUBconst [c] (SUBconst [d] x)) // result: (ADDconst [-c-d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SUBconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(-c - d) v.AddArg(x) return true } // match: (SUBconst [c] (ADDconst [d] x)) // result: (ADDconst [-c+d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64ADDconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(-c + d) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64SUBshiftLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (SUBshiftLL x (MOVDconst [c]) [d]) // result: (SUBconst x [int64(uint64(c)<>uint64(d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64SUBconst) v.AuxInt = int64ToAuxInt(c >> uint64(d)) v.AddArg(x) return true } // match: (SUBshiftRA (SRAconst x [c]) x [c]) // result: (MOVDconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRAconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64SUBshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (SUBshiftRL x (MOVDconst [c]) [d]) // result: (SUBconst x [int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64SUBconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } // match: (SUBshiftRL (SRLconst x [c]) x [c]) // result: (MOVDconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64TST(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (TST x (MOVDconst [c])) // result: (TSTconst [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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64TSTconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } // match: (TST x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (TSTshiftLL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64TSTshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (TST x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (TSTshiftRL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64TSTshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (TST x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (TSTshiftRA x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64TSTshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (TST x0 x1:(RORconst [c] y)) // cond: clobberIfDead(x1) // result: (TSTshiftRO x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64RORconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64TSTshiftRO) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } return false } func rewriteValueARM64_OpARM64TSTW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (TSTW x (MOVDconst [c])) // result: (TSTWconst [int32(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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64TSTWconst) v.AuxInt = int32ToAuxInt(int32(c)) v.AddArg(x) return true } break } return false } func rewriteValueARM64_OpARM64TSTWconst(v *Value) bool { v_0 := v.Args[0] // match: (TSTWconst (MOVDconst [x]) [y]) // result: (FlagConstant [logicFlags32(int32(x)&y)]) for { y := auxIntToInt32(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } x := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(logicFlags32(int32(x) & y)) return true } return false } func rewriteValueARM64_OpARM64TSTconst(v *Value) bool { v_0 := v.Args[0] // match: (TSTconst (MOVDconst [x]) [y]) // result: (FlagConstant [logicFlags64(x&y)]) for { y := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } x := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64FlagConstant) v.AuxInt = flagConstantToAuxInt(logicFlags64(x & y)) return true } return false } func rewriteValueARM64_OpARM64TSTshiftLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (TSTshiftLL (MOVDconst [c]) x [d]) // result: (TSTconst [c] (SLLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64TSTconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (TSTshiftLL x (MOVDconst [c]) [d]) // result: (TSTconst x [int64(uint64(c)< x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64TSTconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRAconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (TSTshiftRA x (MOVDconst [c]) [d]) // result: (TSTconst x [c>>uint64(d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64TSTconst) v.AuxInt = int64ToAuxInt(c >> uint64(d)) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64TSTshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (TSTshiftRL (MOVDconst [c]) x [d]) // result: (TSTconst [c] (SRLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64TSTconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (TSTshiftRL x (MOVDconst [c]) [d]) // result: (TSTconst x [int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64TSTconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64TSTshiftRO(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (TSTshiftRO (MOVDconst [c]) x [d]) // result: (TSTconst [c] (RORconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64TSTconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64RORconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (TSTshiftRO x (MOVDconst [c]) [d]) // result: (TSTconst x [rotateRight64(c, d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64TSTconst) v.AuxInt = int64ToAuxInt(rotateRight64(c, d)) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64UBFIZ(v *Value) bool { v_0 := v.Args[0] // match: (UBFIZ [bfc] (SLLconst [sc] x)) // cond: sc < bfc.width() // result: (UBFIZ [armBFAuxInt(bfc.lsb()+sc, bfc.width()-sc)] x) for { bfc := auxIntToArm64BitField(v.AuxInt) if v_0.Op != OpARM64SLLconst { break } sc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(sc < bfc.width()) { break } v.reset(OpARM64UBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(bfc.lsb()+sc, bfc.width()-sc)) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64UBFX(v *Value) bool { v_0 := v.Args[0] // match: (UBFX [bfc] (ANDconst [c] x)) // cond: isARM64BFMask(0, c, 0) && bfc.lsb() + bfc.width() <= arm64BFWidth(c, 0) // result: (UBFX [bfc] x) for { bfc := auxIntToArm64BitField(v.AuxInt) if v_0.Op != OpARM64ANDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(isARM64BFMask(0, c, 0) && bfc.lsb()+bfc.width() <= arm64BFWidth(c, 0)) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(bfc) v.AddArg(x) return true } // match: (UBFX [bfc] e:(MOVWUreg x)) // cond: e.Uses == 1 && bfc.lsb() < 32 // result: (UBFX [armBFAuxInt(bfc.lsb(), min(bfc.width(), 32-bfc.lsb()))] x) for { bfc := auxIntToArm64BitField(v.AuxInt) e := v_0 if e.Op != OpARM64MOVWUreg { break } x := e.Args[0] if !(e.Uses == 1 && bfc.lsb() < 32) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(bfc.lsb(), min(bfc.width(), 32-bfc.lsb()))) v.AddArg(x) return true } // match: (UBFX [bfc] e:(MOVHUreg x)) // cond: e.Uses == 1 && bfc.lsb() < 16 // result: (UBFX [armBFAuxInt(bfc.lsb(), min(bfc.width(), 16-bfc.lsb()))] x) for { bfc := auxIntToArm64BitField(v.AuxInt) e := v_0 if e.Op != OpARM64MOVHUreg { break } x := e.Args[0] if !(e.Uses == 1 && bfc.lsb() < 16) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(bfc.lsb(), min(bfc.width(), 16-bfc.lsb()))) v.AddArg(x) return true } // match: (UBFX [bfc] e:(MOVBUreg x)) // cond: e.Uses == 1 && bfc.lsb() < 8 // result: (UBFX [armBFAuxInt(bfc.lsb(), min(bfc.width(), 8-bfc.lsb()))] x) for { bfc := auxIntToArm64BitField(v.AuxInt) e := v_0 if e.Op != OpARM64MOVBUreg { break } x := e.Args[0] if !(e.Uses == 1 && bfc.lsb() < 8) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(bfc.lsb(), min(bfc.width(), 8-bfc.lsb()))) v.AddArg(x) return true } // match: (UBFX [bfc] (SRLconst [sc] x)) // cond: sc+bfc.width()+bfc.lsb() < 64 // result: (UBFX [armBFAuxInt(bfc.lsb()+sc, bfc.width())] x) for { bfc := auxIntToArm64BitField(v.AuxInt) if v_0.Op != OpARM64SRLconst { break } sc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(sc+bfc.width()+bfc.lsb() < 64) { break } v.reset(OpARM64UBFX) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(bfc.lsb()+sc, bfc.width())) v.AddArg(x) return true } // match: (UBFX [bfc] (SLLconst [sc] x)) // cond: sc == bfc.lsb() // result: (ANDconst [1< bfc.lsb() && sc < bfc.lsb()+bfc.width() // result: (UBFIZ [armBFAuxInt(sc-bfc.lsb(), bfc.lsb()+bfc.width()-sc)] x) for { bfc := auxIntToArm64BitField(v.AuxInt) if v_0.Op != OpARM64SLLconst { break } sc := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(sc > bfc.lsb() && sc < bfc.lsb()+bfc.width()) { break } v.reset(OpARM64UBFIZ) v.AuxInt = arm64BitFieldToAuxInt(armBFAuxInt(sc-bfc.lsb(), bfc.lsb()+bfc.width()-sc)) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64UDIV(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (UDIV x (MOVDconst [1])) // result: x for { x := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { break } v.copyOf(x) return true } // match: (UDIV x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (SRLconst [log64(c)] x) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c)) { break } v.reset(OpARM64SRLconst) v.AuxInt = int64ToAuxInt(log64(c)) v.AddArg(x) return true } // match: (UDIV (MOVDconst [c]) (MOVDconst [d])) // cond: d != 0 // result: (MOVDconst [int64(uint64(c)/uint64(d))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_1.AuxInt) if !(d != 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) / uint64(d))) return true } return false } func rewriteValueARM64_OpARM64UDIVW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (UDIVW x (MOVDconst [c])) // cond: uint32(c)==1 // result: (MOVWUreg x) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if !(uint32(c) == 1) { break } v.reset(OpARM64MOVWUreg) v.AddArg(x) return true } // match: (UDIVW x (MOVDconst [c])) // cond: isPowerOfTwo(c) && is32Bit(c) // result: (SRLconst [log64(c)] (MOVWUreg x)) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c) && is32Bit(c)) { break } v.reset(OpARM64SRLconst) v.AuxInt = int64ToAuxInt(log64(c)) v0 := b.NewValue0(v.Pos, OpARM64MOVWUreg, v.Type) v0.AddArg(x) v.AddArg(v0) return true } // match: (UDIVW (MOVDconst [c]) (MOVDconst [d])) // cond: d != 0 // result: (MOVDconst [int64(uint32(c)/uint32(d))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_1.AuxInt) if !(d != 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint32(c) / uint32(d))) return true } return false } func rewriteValueARM64_OpARM64UMOD(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (UMOD x y) // result: (MSUB x y (UDIV x y)) for { if v.Type != typ.UInt64 { break } x := v_0 y := v_1 v.reset(OpARM64MSUB) v.Type = typ.UInt64 v0 := b.NewValue0(v.Pos, OpARM64UDIV, typ.UInt64) v0.AddArg2(x, y) v.AddArg3(x, y, v0) return true } // match: (UMOD _ (MOVDconst [1])) // result: (MOVDconst [0]) for { if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (UMOD x (MOVDconst [c])) // cond: isPowerOfTwo(c) // result: (ANDconst [c-1] x) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c)) { break } v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c - 1) v.AddArg(x) return true } // match: (UMOD (MOVDconst [c]) (MOVDconst [d])) // cond: d != 0 // result: (MOVDconst [int64(uint64(c)%uint64(d))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_1.AuxInt) if !(d != 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) % uint64(d))) return true } return false } func rewriteValueARM64_OpARM64UMODW(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (UMODW x y) // result: (MSUBW x y (UDIVW x y)) for { if v.Type != typ.UInt32 { break } x := v_0 y := v_1 v.reset(OpARM64MSUBW) v.Type = typ.UInt32 v0 := b.NewValue0(v.Pos, OpARM64UDIVW, typ.UInt32) v0.AddArg2(x, y) v.AddArg3(x, y, v0) return true } // match: (UMODW _ (MOVDconst [c])) // cond: uint32(c)==1 // result: (MOVDconst [0]) for { if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if !(uint32(c) == 1) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (UMODW x (MOVDconst [c])) // cond: isPowerOfTwo(c) && is32Bit(c) // result: (ANDconst [c-1] x) for { x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) if !(isPowerOfTwo(c) && is32Bit(c)) { break } v.reset(OpARM64ANDconst) v.AuxInt = int64ToAuxInt(c - 1) v.AddArg(x) return true } // match: (UMODW (MOVDconst [c]) (MOVDconst [d])) // cond: d != 0 // result: (MOVDconst [int64(uint32(c)%uint32(d))]) for { if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) if v_1.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_1.AuxInt) if !(d != 0) { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(uint32(c) % uint32(d))) return true } return false } func rewriteValueARM64_OpARM64XOR(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (XOR x (MOVDconst [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 != OpARM64MOVDconst { continue } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(c) v.AddArg(x) return true } break } // match: (XOR x x) // result: (MOVDconst [0]) for { x := v_0 if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } // match: (XOR x (MVN y)) // result: (EON 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 != OpARM64MVN { continue } y := v_1.Args[0] v.reset(OpARM64EON) v.AddArg2(x, y) return true } break } // match: (XOR x0 x1:(SLLconst [c] y)) // cond: clobberIfDead(x1) // result: (XORshiftLL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SLLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64XORshiftLL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (XOR x0 x1:(SRLconst [c] y)) // cond: clobberIfDead(x1) // result: (XORshiftRL x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRLconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64XORshiftRL) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (XOR x0 x1:(SRAconst [c] y)) // cond: clobberIfDead(x1) // result: (XORshiftRA x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64SRAconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64XORshiftRA) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } // match: (XOR x0 x1:(RORconst [c] y)) // cond: clobberIfDead(x1) // result: (XORshiftRO x0 y [c]) for { for _i0 := 0; _i0 <= 1; _i0, v_0, v_1 = _i0+1, v_1, v_0 { x0 := v_0 x1 := v_1 if x1.Op != OpARM64RORconst { continue } c := auxIntToInt64(x1.AuxInt) y := x1.Args[0] if !(clobberIfDead(x1)) { continue } v.reset(OpARM64XORshiftRO) v.AuxInt = int64ToAuxInt(c) v.AddArg2(x0, y) return true } break } return false } func rewriteValueARM64_OpARM64XORconst(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: (MVN x) for { if auxIntToInt64(v.AuxInt) != -1 { break } x := v_0 v.reset(OpARM64MVN) v.AddArg(x) return true } // match: (XORconst [c] (MOVDconst [d])) // result: (MOVDconst [c^d]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } d := auxIntToInt64(v_0.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(c ^ d) return true } // match: (XORconst [c] (XORconst [d] x)) // result: (XORconst [c^d] x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64XORconst { break } d := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(c ^ d) v.AddArg(x) return true } return false } func rewriteValueARM64_OpARM64XORshiftLL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (XORshiftLL (MOVDconst [c]) x [d]) // result: (XORconst [c] (SLLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SLLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (XORshiftLL x (MOVDconst [c]) [d]) // result: (XORconst x [int64(uint64(c)< [8] (UBFX [armBFAuxInt(8, 8)] x) x) // result: (REV16W x) for { if v.Type != typ.UInt16 || auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64UBFX || v_0.Type != typ.UInt16 || auxIntToArm64BitField(v_0.AuxInt) != armBFAuxInt(8, 8) { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64REV16W) v.AddArg(x) return true } // match: (XORshiftLL [8] (UBFX [armBFAuxInt(8, 24)] (ANDconst [c1] x)) (ANDconst [c2] x)) // cond: uint32(c1) == 0xff00ff00 && uint32(c2) == 0x00ff00ff // result: (REV16W x) for { if auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64UBFX || auxIntToArm64BitField(v_0.AuxInt) != armBFAuxInt(8, 24) { break } v_0_0 := v_0.Args[0] if v_0_0.Op != OpARM64ANDconst { break } c1 := auxIntToInt64(v_0_0.AuxInt) x := v_0_0.Args[0] if v_1.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_1.AuxInt) if x != v_1.Args[0] || !(uint32(c1) == 0xff00ff00 && uint32(c2) == 0x00ff00ff) { break } v.reset(OpARM64REV16W) v.AddArg(x) return true } // match: (XORshiftLL [8] (SRLconst [8] (ANDconst [c1] x)) (ANDconst [c2] x)) // cond: (uint64(c1) == 0xff00ff00ff00ff00 && uint64(c2) == 0x00ff00ff00ff00ff) // result: (REV16 x) for { if auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != 8 { break } v_0_0 := v_0.Args[0] if v_0_0.Op != OpARM64ANDconst { break } c1 := auxIntToInt64(v_0_0.AuxInt) x := v_0_0.Args[0] if v_1.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_1.AuxInt) if x != v_1.Args[0] || !(uint64(c1) == 0xff00ff00ff00ff00 && uint64(c2) == 0x00ff00ff00ff00ff) { break } v.reset(OpARM64REV16) v.AddArg(x) return true } // match: (XORshiftLL [8] (SRLconst [8] (ANDconst [c1] x)) (ANDconst [c2] x)) // cond: (uint64(c1) == 0xff00ff00 && uint64(c2) == 0x00ff00ff) // result: (REV16 (ANDconst [0xffffffff] x)) for { if auxIntToInt64(v.AuxInt) != 8 || v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != 8 { break } v_0_0 := v_0.Args[0] if v_0_0.Op != OpARM64ANDconst { break } c1 := auxIntToInt64(v_0_0.AuxInt) x := v_0_0.Args[0] if v_1.Op != OpARM64ANDconst { break } c2 := auxIntToInt64(v_1.AuxInt) if x != v_1.Args[0] || !(uint64(c1) == 0xff00ff00 && uint64(c2) == 0x00ff00ff) { break } v.reset(OpARM64REV16) v0 := b.NewValue0(v.Pos, OpARM64ANDconst, x.Type) v0.AuxInt = int64ToAuxInt(0xffffffff) v0.AddArg(x) v.AddArg(v0) return true } // match: (XORshiftLL [c] (SRLconst x [64-c]) x2) // result: (EXTRconst [64-c] x2 x) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != 64-c { break } x := v_0.Args[0] x2 := v_1 v.reset(OpARM64EXTRconst) v.AuxInt = int64ToAuxInt(64 - c) v.AddArg2(x2, x) return true } // match: (XORshiftLL [c] (UBFX [bfc] x) x2) // cond: c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c) // result: (EXTRWconst [32-c] x2 x) for { t := v.Type c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64UBFX { break } bfc := auxIntToArm64BitField(v_0.AuxInt) x := v_0.Args[0] x2 := v_1 if !(c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c)) { break } v.reset(OpARM64EXTRWconst) v.AuxInt = int64ToAuxInt(32 - c) v.AddArg2(x2, x) return true } return false } func rewriteValueARM64_OpARM64XORshiftRA(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (XORshiftRA (MOVDconst [c]) x [d]) // result: (XORconst [c] (SRAconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRAconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (XORshiftRA x (MOVDconst [c]) [d]) // result: (XORconst x [c>>uint64(d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(c >> uint64(d)) v.AddArg(x) return true } // match: (XORshiftRA (SRAconst x [c]) x [c]) // result: (MOVDconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRAconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64XORshiftRL(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (XORshiftRL (MOVDconst [c]) x [d]) // result: (XORconst [c] (SRLconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64SRLconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (XORshiftRL x (MOVDconst [c]) [d]) // result: (XORconst x [int64(uint64(c)>>uint64(d))]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(int64(uint64(c) >> uint64(d))) v.AddArg(x) return true } // match: (XORshiftRL (SRLconst x [c]) x [c]) // result: (MOVDconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64SRLconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpARM64XORshiftRO(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (XORshiftRO (MOVDconst [c]) x [d]) // result: (XORconst [c] (RORconst x [d])) for { d := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_0.AuxInt) x := v_1 v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(c) v0 := b.NewValue0(v.Pos, OpARM64RORconst, x.Type) v0.AuxInt = int64ToAuxInt(d) v0.AddArg(x) v.AddArg(v0) return true } // match: (XORshiftRO x (MOVDconst [c]) [d]) // result: (XORconst x [rotateRight64(c, d)]) for { d := auxIntToInt64(v.AuxInt) x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpARM64XORconst) v.AuxInt = int64ToAuxInt(rotateRight64(c, d)) v.AddArg(x) return true } // match: (XORshiftRO (RORconst x [c]) x [c]) // result: (MOVDconst [0]) for { c := auxIntToInt64(v.AuxInt) if v_0.Op != OpARM64RORconst || auxIntToInt64(v_0.AuxInt) != c { break } x := v_0.Args[0] if x != v_1 { break } v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } return false } func rewriteValueARM64_OpAddr(v *Value) bool { v_0 := v.Args[0] // match: (Addr {sym} base) // result: (MOVDaddr {sym} base) for { sym := auxToSym(v.Aux) base := v_0 v.reset(OpARM64MOVDaddr) v.Aux = symToAux(sym) v.AddArg(base) return true } } func rewriteValueARM64_OpAvg64u(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Avg64u x y) // result: (ADD (SRLconst (SUB x y) [1]) y) for { t := v.Type x := v_0 y := v_1 v.reset(OpARM64ADD) v0 := b.NewValue0(v.Pos, OpARM64SRLconst, t) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpARM64SUB, t) v1.AddArg2(x, y) v0.AddArg(v1) v.AddArg2(v0, y) return true } } func rewriteValueARM64_OpBitLen32(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (BitLen32 x) // result: (SUB (MOVDconst [32]) (CLZW x)) for { x := v_0 v.reset(OpARM64SUB) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(32) v1 := b.NewValue0(v.Pos, OpARM64CLZW, typ.Int) v1.AddArg(x) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_OpBitLen64(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (BitLen64 x) // result: (SUB (MOVDconst [64]) (CLZ x)) for { x := v_0 v.reset(OpARM64SUB) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(64) v1 := b.NewValue0(v.Pos, OpARM64CLZ, typ.Int) v1.AddArg(x) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_OpBitRev16(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (BitRev16 x) // result: (SRLconst [48] (RBIT x)) for { x := v_0 v.reset(OpARM64SRLconst) v.AuxInt = int64ToAuxInt(48) v0 := b.NewValue0(v.Pos, OpARM64RBIT, typ.UInt64) v0.AddArg(x) v.AddArg(v0) return true } } func rewriteValueARM64_OpBitRev8(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (BitRev8 x) // result: (SRLconst [56] (RBIT x)) for { x := v_0 v.reset(OpARM64SRLconst) v.AuxInt = int64ToAuxInt(56) v0 := b.NewValue0(v.Pos, OpARM64RBIT, typ.UInt64) v0.AddArg(x) v.AddArg(v0) return true } } func rewriteValueARM64_OpCondSelect(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (CondSelect x y boolval) // cond: flagArg(boolval) != nil // result: (CSEL [boolval.Op] x y flagArg(boolval)) for { x := v_0 y := v_1 boolval := v_2 if !(flagArg(boolval) != nil) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(boolval.Op) v.AddArg3(x, y, flagArg(boolval)) return true } // match: (CondSelect x y boolval) // cond: flagArg(boolval) == nil // result: (CSEL [OpARM64NotEqual] x y (TSTWconst [1] boolval)) for { x := v_0 y := v_1 boolval := v_2 if !(flagArg(boolval) == nil) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(1) v0.AddArg(boolval) v.AddArg3(x, y, v0) return true } return false } func rewriteValueARM64_OpConst16(v *Value) bool { // match: (Const16 [val]) // result: (MOVDconst [int64(val)]) for { val := auxIntToInt16(v.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(val)) return true } } func rewriteValueARM64_OpConst32(v *Value) bool { // match: (Const32 [val]) // result: (MOVDconst [int64(val)]) for { val := auxIntToInt32(v.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(val)) return true } } func rewriteValueARM64_OpConst32F(v *Value) bool { // match: (Const32F [val]) // result: (FMOVSconst [float64(val)]) for { val := auxIntToFloat32(v.AuxInt) v.reset(OpARM64FMOVSconst) v.AuxInt = float64ToAuxInt(float64(val)) return true } } func rewriteValueARM64_OpConst64(v *Value) bool { // match: (Const64 [val]) // result: (MOVDconst [int64(val)]) for { val := auxIntToInt64(v.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(val)) return true } } func rewriteValueARM64_OpConst64F(v *Value) bool { // match: (Const64F [val]) // result: (FMOVDconst [float64(val)]) for { val := auxIntToFloat64(v.AuxInt) v.reset(OpARM64FMOVDconst) v.AuxInt = float64ToAuxInt(float64(val)) return true } } func rewriteValueARM64_OpConst8(v *Value) bool { // match: (Const8 [val]) // result: (MOVDconst [int64(val)]) for { val := auxIntToInt8(v.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(int64(val)) return true } } func rewriteValueARM64_OpConstBool(v *Value) bool { // match: (ConstBool [t]) // result: (MOVDconst [b2i(t)]) for { t := auxIntToBool(v.AuxInt) v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(b2i(t)) return true } } func rewriteValueARM64_OpConstNil(v *Value) bool { // match: (ConstNil) // result: (MOVDconst [0]) for { v.reset(OpARM64MOVDconst) v.AuxInt = int64ToAuxInt(0) return true } } func rewriteValueARM64_OpCtz16(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Ctz16 x) // result: (CLZW (RBITW (ORconst [0x10000] x))) for { t := v.Type x := v_0 v.reset(OpARM64CLZW) v.Type = t v0 := b.NewValue0(v.Pos, OpARM64RBITW, typ.UInt32) v1 := b.NewValue0(v.Pos, OpARM64ORconst, typ.UInt32) v1.AuxInt = int64ToAuxInt(0x10000) v1.AddArg(x) v0.AddArg(v1) v.AddArg(v0) return true } } func rewriteValueARM64_OpCtz32(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (Ctz32 x) // result: (CLZW (RBITW x)) for { t := v.Type x := v_0 v.reset(OpARM64CLZW) v0 := b.NewValue0(v.Pos, OpARM64RBITW, t) v0.AddArg(x) v.AddArg(v0) return true } } func rewriteValueARM64_OpCtz64(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (Ctz64 x) // result: (CLZ (RBIT x)) for { t := v.Type x := v_0 v.reset(OpARM64CLZ) v0 := b.NewValue0(v.Pos, OpARM64RBIT, t) v0.AddArg(x) v.AddArg(v0) return true } } func rewriteValueARM64_OpCtz8(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Ctz8 x) // result: (CLZW (RBITW (ORconst [0x100] x))) for { t := v.Type x := v_0 v.reset(OpARM64CLZW) v.Type = t v0 := b.NewValue0(v.Pos, OpARM64RBITW, typ.UInt32) v1 := b.NewValue0(v.Pos, OpARM64ORconst, typ.UInt32) v1.AuxInt = int64ToAuxInt(0x100) v1.AddArg(x) v0.AddArg(v1) v.AddArg(v0) return true } } func rewriteValueARM64_OpDiv16(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Div16 [false] x y) // result: (DIVW (SignExt16to32 x) (SignExt16to32 y)) for { if auxIntToBool(v.AuxInt) != false { break } x := v_0 y := v_1 v.reset(OpARM64DIVW) v0 := b.NewValue0(v.Pos, OpSignExt16to32, typ.Int32) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpSignExt16to32, typ.Int32) v1.AddArg(y) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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: (UDIVW (ZeroExt16to32 x) (ZeroExt16to32 y)) for { x := v_0 y := v_1 v.reset(OpARM64UDIVW) v0 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v1.AddArg(y) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_OpDiv32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (Div32 [false] x y) // result: (DIVW x y) for { if auxIntToBool(v.AuxInt) != false { break } x := v_0 y := v_1 v.reset(OpARM64DIVW) v.AddArg2(x, y) return true } return false } func rewriteValueARM64_OpDiv64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (Div64 [false] x y) // result: (DIV x y) for { if auxIntToBool(v.AuxInt) != false { break } x := v_0 y := v_1 v.reset(OpARM64DIV) v.AddArg2(x, y) return true } return false } func rewriteValueARM64_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: (DIVW (SignExt8to32 x) (SignExt8to32 y)) for { x := v_0 y := v_1 v.reset(OpARM64DIVW) v0 := b.NewValue0(v.Pos, OpSignExt8to32, typ.Int32) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpSignExt8to32, typ.Int32) v1.AddArg(y) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_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: (UDIVW (ZeroExt8to32 x) (ZeroExt8to32 y)) for { x := v_0 y := v_1 v.reset(OpARM64UDIVW) v0 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v1.AddArg(y) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_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: (Equal (CMPW (ZeroExt16to32 x) (ZeroExt16to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_OpEq32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Eq32 x y) // result: (Equal (CMPW x y)) for { x := v_0 y := v_1 v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpEq32F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Eq32F x y) // result: (Equal (FCMPS x y)) for { x := v_0 y := v_1 v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64FCMPS, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpEq64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Eq64 x y) // result: (Equal (CMP x y)) for { x := v_0 y := v_1 v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpEq64F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Eq64F x y) // result: (Equal (FCMPD x y)) for { x := v_0 y := v_1 v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64FCMPD, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_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: (Equal (CMPW (ZeroExt8to32 x) (ZeroExt8to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_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 (MOVDconst [1]) (XOR x y)) for { x := v_0 y := v_1 v.reset(OpARM64XOR) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v1 := b.NewValue0(v.Pos, OpARM64XOR, typ.Bool) v1.AddArg2(x, y) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_OpEqPtr(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (EqPtr x y) // result: (Equal (CMP x y)) for { x := v_0 y := v_1 v.reset(OpARM64Equal) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpFMA(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] // match: (FMA x y z) // result: (FMADDD z x y) for { x := v_0 y := v_1 z := v_2 v.reset(OpARM64FMADDD) v.AddArg3(z, x, y) return true } } func rewriteValueARM64_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: (SRAconst (MULL x y) [32]) for { x := v_0 y := v_1 v.reset(OpARM64SRAconst) v.AuxInt = int64ToAuxInt(32) v0 := b.NewValue0(v.Pos, OpARM64MULL, typ.Int64) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_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: (SRAconst (UMULL x y) [32]) for { x := v_0 y := v_1 v.reset(OpARM64SRAconst) v.AuxInt = int64ToAuxInt(32) v0 := b.NewValue0(v.Pos, OpARM64UMULL, typ.UInt64) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpIsInBounds(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (IsInBounds idx len) // result: (LessThanU (CMP idx len)) for { idx := v_0 len := v_1 v.reset(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(idx, len) v.AddArg(v0) return true } } func rewriteValueARM64_OpIsNonNil(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (IsNonNil ptr) // result: (NotEqual (CMPconst [0] ptr)) for { ptr := v_0 v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(0) v0.AddArg(ptr) v.AddArg(v0) return true } } func rewriteValueARM64_OpIsSliceInBounds(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (IsSliceInBounds idx len) // result: (LessEqualU (CMP idx len)) for { idx := v_0 len := v_1 v.reset(OpARM64LessEqualU) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(idx, len) v.AddArg(v0) return true } } func rewriteValueARM64_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: (LessEqual (CMPW (SignExt16to32 x) (SignExt16to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64LessEqual) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpSignExt16to32, typ.Int32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt16to32, typ.Int32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_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 zero:(MOVDconst [0])) // result: (Eq16 x zero) for { x := v_0 zero := v_1 if zero.Op != OpARM64MOVDconst || auxIntToInt64(zero.AuxInt) != 0 { break } v.reset(OpEq16) v.AddArg2(x, zero) return true } // match: (Leq16U (MOVDconst [1]) x) // result: (Neq16 (MOVDconst [0]) x) for { if v_0.Op != OpARM64MOVDconst || auxIntToInt64(v_0.AuxInt) != 1 { break } x := v_1 v.reset(OpNeq16) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, x) return true } // match: (Leq16U x y) // result: (LessEqualU (CMPW (ZeroExt16to32 x) (ZeroExt16to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64LessEqualU) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_OpLeq32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Leq32 x y) // result: (LessEqual (CMPW x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessEqual) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpLeq32F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Leq32F x y) // result: (LessEqualF (FCMPS x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessEqualF) v0 := b.NewValue0(v.Pos, OpARM64FCMPS, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_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 zero:(MOVDconst [0])) // result: (Eq32 x zero) for { x := v_0 zero := v_1 if zero.Op != OpARM64MOVDconst || auxIntToInt64(zero.AuxInt) != 0 { break } v.reset(OpEq32) v.AddArg2(x, zero) return true } // match: (Leq32U (MOVDconst [1]) x) // result: (Neq32 (MOVDconst [0]) x) for { if v_0.Op != OpARM64MOVDconst || auxIntToInt64(v_0.AuxInt) != 1 { break } x := v_1 v.reset(OpNeq32) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, x) return true } // match: (Leq32U x y) // result: (LessEqualU (CMPW x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessEqualU) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpLeq64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Leq64 x y) // result: (LessEqual (CMP x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessEqual) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpLeq64F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Leq64F x y) // result: (LessEqualF (FCMPD x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessEqualF) v0 := b.NewValue0(v.Pos, OpARM64FCMPD, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_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 zero:(MOVDconst [0])) // result: (Eq64 x zero) for { x := v_0 zero := v_1 if zero.Op != OpARM64MOVDconst || auxIntToInt64(zero.AuxInt) != 0 { break } v.reset(OpEq64) v.AddArg2(x, zero) return true } // match: (Leq64U (MOVDconst [1]) x) // result: (Neq64 (MOVDconst [0]) x) for { if v_0.Op != OpARM64MOVDconst || auxIntToInt64(v_0.AuxInt) != 1 { break } x := v_1 v.reset(OpNeq64) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, x) return true } // match: (Leq64U x y) // result: (LessEqualU (CMP x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessEqualU) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_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: (LessEqual (CMPW (SignExt8to32 x) (SignExt8to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64LessEqual) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpSignExt8to32, typ.Int32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt8to32, typ.Int32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_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 zero:(MOVDconst [0])) // result: (Eq8 x zero) for { x := v_0 zero := v_1 if zero.Op != OpARM64MOVDconst || auxIntToInt64(zero.AuxInt) != 0 { break } v.reset(OpEq8) v.AddArg2(x, zero) return true } // match: (Leq8U (MOVDconst [1]) x) // result: (Neq8 (MOVDconst [0]) x) for { if v_0.Op != OpARM64MOVDconst || auxIntToInt64(v_0.AuxInt) != 1 { break } x := v_1 v.reset(OpNeq8) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(v0, x) return true } // match: (Leq8U x y) // result: (LessEqualU (CMPW (ZeroExt8to32 x) (ZeroExt8to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64LessEqualU) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_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: (LessThan (CMPW (SignExt16to32 x) (SignExt16to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64LessThan) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpSignExt16to32, typ.Int32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt16to32, typ.Int32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_OpLess16U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less16U zero:(MOVDconst [0]) x) // result: (Neq16 zero x) for { zero := v_0 if zero.Op != OpARM64MOVDconst || auxIntToInt64(zero.AuxInt) != 0 { break } x := v_1 v.reset(OpNeq16) v.AddArg2(zero, x) return true } // match: (Less16U x (MOVDconst [1])) // result: (Eq16 x (MOVDconst [0])) for { x := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { break } v.reset(OpEq16) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(x, v0) return true } // match: (Less16U x y) // result: (LessThanU (CMPW (ZeroExt16to32 x) (ZeroExt16to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_OpLess32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Less32 x y) // result: (LessThan (CMPW x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessThan) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpLess32F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Less32F x y) // result: (LessThanF (FCMPS x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessThanF) v0 := b.NewValue0(v.Pos, OpARM64FCMPS, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpLess32U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less32U zero:(MOVDconst [0]) x) // result: (Neq32 zero x) for { zero := v_0 if zero.Op != OpARM64MOVDconst || auxIntToInt64(zero.AuxInt) != 0 { break } x := v_1 v.reset(OpNeq32) v.AddArg2(zero, x) return true } // match: (Less32U x (MOVDconst [1])) // result: (Eq32 x (MOVDconst [0])) for { x := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { break } v.reset(OpEq32) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(x, v0) return true } // match: (Less32U x y) // result: (LessThanU (CMPW x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpLess64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Less64 x y) // result: (LessThan (CMP x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessThan) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpLess64F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Less64F x y) // result: (LessThanF (FCMPD x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessThanF) v0 := b.NewValue0(v.Pos, OpARM64FCMPD, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpLess64U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less64U zero:(MOVDconst [0]) x) // result: (Neq64 zero x) for { zero := v_0 if zero.Op != OpARM64MOVDconst || auxIntToInt64(zero.AuxInt) != 0 { break } x := v_1 v.reset(OpNeq64) v.AddArg2(zero, x) return true } // match: (Less64U x (MOVDconst [1])) // result: (Eq64 x (MOVDconst [0])) for { x := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { break } v.reset(OpEq64) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(x, v0) return true } // match: (Less64U x y) // result: (LessThanU (CMP x y)) for { x := v_0 y := v_1 v.reset(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_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: (LessThan (CMPW (SignExt8to32 x) (SignExt8to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64LessThan) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpSignExt8to32, typ.Int32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpSignExt8to32, typ.Int32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_OpLess8U(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Less8U zero:(MOVDconst [0]) x) // result: (Neq8 zero x) for { zero := v_0 if zero.Op != OpARM64MOVDconst || auxIntToInt64(zero.AuxInt) != 0 { break } x := v_1 v.reset(OpNeq8) v.AddArg2(zero, x) return true } // match: (Less8U x (MOVDconst [1])) // result: (Eq8 x (MOVDconst [0])) for { x := v_0 if v_1.Op != OpARM64MOVDconst || auxIntToInt64(v_1.AuxInt) != 1 { break } v.reset(OpEq8) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg2(x, v0) return true } // match: (Less8U x y) // result: (LessThanU (CMPW (ZeroExt8to32 x) (ZeroExt8to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_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(OpARM64MOVBUload) 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(OpARM64MOVBload) 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(OpARM64MOVBUload) 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(OpARM64MOVHload) 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(OpARM64MOVHUload) 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(OpARM64MOVWload) 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(OpARM64MOVWUload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: (is64BitInt(t) || isPtr(t)) // result: (MOVDload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is64BitInt(t) || isPtr(t)) { break } v.reset(OpARM64MOVDload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: is32BitFloat(t) // result: (FMOVSload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is32BitFloat(t)) { break } v.reset(OpARM64FMOVSload) v.AddArg2(ptr, mem) return true } // match: (Load ptr mem) // cond: is64BitFloat(t) // result: (FMOVDload ptr mem) for { t := v.Type ptr := v_0 mem := v_1 if !(is64BitFloat(t)) { break } v.reset(OpARM64FMOVDload) v.AddArg2(ptr, mem) return true } return false } func rewriteValueARM64_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: (MOVDaddr {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(OpARM64MOVDaddr) 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: (MOVDaddr {sym} base) for { t := v.Type sym := auxToSym(v.Aux) base := v_0 if !(!t.Elem().HasPointers()) { break } v.reset(OpARM64MOVDaddr) v.Aux = symToAux(sym) v.AddArg(base) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh16x16 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh16x32 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_OpLsh16x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Lsh16x64 x y) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh16x64 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] y)) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v2.AddArg(y) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh16x8 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh32x16 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh32x32 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_OpLsh32x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Lsh32x64 x y) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh32x64 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] y)) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v2.AddArg(y) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh32x8 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh64x16 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh64x32 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_OpLsh64x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Lsh64x64 x y) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh64x64 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] y)) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v2.AddArg(y) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh64x8 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh8x16 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh8x32 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_OpLsh8x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Lsh8x64 x y) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh8x64 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] y)) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v2.AddArg(y) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SLL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SLL) v.Type = t v.AddArg2(x, y) return true } // match: (Lsh8x8 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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: (MODW (SignExt16to32 x) (SignExt16to32 y)) for { x := v_0 y := v_1 v.reset(OpARM64MODW) v0 := b.NewValue0(v.Pos, OpSignExt16to32, typ.Int32) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpSignExt16to32, typ.Int32) v1.AddArg(y) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_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: (UMODW (ZeroExt16to32 x) (ZeroExt16to32 y)) for { x := v_0 y := v_1 v.reset(OpARM64UMODW) v0 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v1.AddArg(y) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_OpMod32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (Mod32 x y) // result: (MODW x y) for { x := v_0 y := v_1 v.reset(OpARM64MODW) v.AddArg2(x, y) return true } } func rewriteValueARM64_OpMod64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (Mod64 x y) // result: (MOD x y) for { x := v_0 y := v_1 v.reset(OpARM64MOD) v.AddArg2(x, y) return true } } func rewriteValueARM64_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: (MODW (SignExt8to32 x) (SignExt8to32 y)) for { x := v_0 y := v_1 v.reset(OpARM64MODW) v0 := b.NewValue0(v.Pos, OpSignExt8to32, typ.Int32) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpSignExt8to32, typ.Int32) v1.AddArg(y) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_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: (UMODW (ZeroExt8to32 x) (ZeroExt8to32 y)) for { x := v_0 y := v_1 v.reset(OpARM64UMODW) v0 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v1.AddArg(y) v.AddArg2(v0, v1) return true } } func rewriteValueARM64_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 (MOVBUload src mem) mem) for { if auxIntToInt64(v.AuxInt) != 1 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVBstore) v0 := b.NewValue0(v.Pos, OpARM64MOVBUload, typ.UInt8) v0.AddArg2(src, mem) v.AddArg3(dst, v0, mem) return true } // match: (Move [2] dst src mem) // result: (MOVHstore dst (MOVHUload src mem) mem) for { if auxIntToInt64(v.AuxInt) != 2 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVHstore) v0 := b.NewValue0(v.Pos, OpARM64MOVHUload, typ.UInt16) v0.AddArg2(src, mem) v.AddArg3(dst, v0, mem) return true } // match: (Move [3] dst src mem) // result: (MOVBstore [2] dst (MOVBUload [2] src mem) (MOVHstore dst (MOVHUload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 3 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(2) v0 := b.NewValue0(v.Pos, OpARM64MOVBUload, typ.UInt8) v0.AuxInt = int32ToAuxInt(2) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVHstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVHUload, typ.UInt16) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [4] dst src mem) // result: (MOVWstore dst (MOVWUload src mem) mem) for { if auxIntToInt64(v.AuxInt) != 4 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVWstore) v0 := b.NewValue0(v.Pos, OpARM64MOVWUload, typ.UInt32) v0.AddArg2(src, mem) v.AddArg3(dst, v0, mem) return true } // match: (Move [5] dst src mem) // result: (MOVBstore [4] dst (MOVBUload [4] src mem) (MOVWstore dst (MOVWUload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 5 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(4) v0 := b.NewValue0(v.Pos, OpARM64MOVBUload, typ.UInt8) v0.AuxInt = int32ToAuxInt(4) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVWstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVWUload, typ.UInt32) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [6] dst src mem) // result: (MOVHstore [4] dst (MOVHUload [4] src mem) (MOVWstore dst (MOVWUload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 6 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(4) v0 := b.NewValue0(v.Pos, OpARM64MOVHUload, typ.UInt16) v0.AuxInt = int32ToAuxInt(4) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVWstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVWUload, typ.UInt32) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [7] dst src mem) // result: (MOVWstore [3] dst (MOVWUload [3] src mem) (MOVWstore dst (MOVWUload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 7 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(3) v0 := b.NewValue0(v.Pos, OpARM64MOVWUload, typ.UInt32) v0.AuxInt = int32ToAuxInt(3) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVWstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVWUload, typ.UInt32) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [8] dst src mem) // result: (MOVDstore dst (MOVDload src mem) mem) for { if auxIntToInt64(v.AuxInt) != 8 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVDstore) v0 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v0.AddArg2(src, mem) v.AddArg3(dst, v0, mem) return true } // match: (Move [9] dst src mem) // result: (MOVBstore [8] dst (MOVBUload [8] src mem) (MOVDstore dst (MOVDload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 9 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpARM64MOVBUload, typ.UInt8) v0.AuxInt = int32ToAuxInt(8) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [10] dst src mem) // result: (MOVHstore [8] dst (MOVHUload [8] src mem) (MOVDstore dst (MOVDload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 10 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpARM64MOVHUload, typ.UInt16) v0.AuxInt = int32ToAuxInt(8) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [11] dst src mem) // result: (MOVDstore [3] dst (MOVDload [3] src mem) (MOVDstore dst (MOVDload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 11 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(3) v0 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v0.AuxInt = int32ToAuxInt(3) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [12] dst src mem) // result: (MOVWstore [8] dst (MOVWUload [8] src mem) (MOVDstore dst (MOVDload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 12 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpARM64MOVWUload, typ.UInt32) v0.AuxInt = int32ToAuxInt(8) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [13] dst src mem) // result: (MOVDstore [5] dst (MOVDload [5] src mem) (MOVDstore dst (MOVDload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 13 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(5) v0 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v0.AuxInt = int32ToAuxInt(5) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [14] dst src mem) // result: (MOVDstore [6] dst (MOVDload [6] src mem) (MOVDstore dst (MOVDload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 14 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(6) v0 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v0.AuxInt = int32ToAuxInt(6) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [15] dst src mem) // result: (MOVDstore [7] dst (MOVDload [7] src mem) (MOVDstore dst (MOVDload src mem) mem)) for { if auxIntToInt64(v.AuxInt) != 15 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(7) v0 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v0.AuxInt = int32ToAuxInt(7) v0.AddArg2(src, mem) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v2 := b.NewValue0(v.Pos, OpARM64MOVDload, typ.UInt64) v2.AddArg2(src, mem) v1.AddArg3(dst, v2, mem) v.AddArg3(dst, v0, v1) return true } // match: (Move [16] dst src mem) // result: (STP dst (Select0 (LDP src mem)) (Select1 (LDP src mem)) mem) for { if auxIntToInt64(v.AuxInt) != 16 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64STP) v0 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v1 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v1.AddArg2(src, mem) v0.AddArg(v1) v2 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v2.AddArg(v1) v.AddArg4(dst, v0, v2, mem) return true } // match: (Move [32] dst src mem) // result: (STP [16] dst (Select0 (LDP [16] src mem)) (Select1 (LDP [16] src mem)) (STP dst (Select0 (LDP src mem)) (Select1 (LDP src mem)) mem)) for { if auxIntToInt64(v.AuxInt) != 32 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64STP) v.AuxInt = int32ToAuxInt(16) v0 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v1 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v1.AuxInt = int32ToAuxInt(16) v1.AddArg2(src, mem) v0.AddArg(v1) v2 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v2.AddArg(v1) v3 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v4 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v5 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v5.AddArg2(src, mem) v4.AddArg(v5) v6 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v6.AddArg(v5) v3.AddArg4(dst, v4, v6, mem) v.AddArg4(dst, v0, v2, v3) return true } // match: (Move [48] dst src mem) // result: (STP [32] dst (Select0 (LDP [32] src mem)) (Select1 (LDP [32] src mem)) (STP [16] dst (Select0 (LDP [16] src mem)) (Select1 (LDP [16] src mem)) (STP dst (Select0 (LDP src mem)) (Select1 (LDP src mem)) mem))) for { if auxIntToInt64(v.AuxInt) != 48 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64STP) v.AuxInt = int32ToAuxInt(32) v0 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v1 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v1.AuxInt = int32ToAuxInt(32) v1.AddArg2(src, mem) v0.AddArg(v1) v2 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v2.AddArg(v1) v3 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v3.AuxInt = int32ToAuxInt(16) v4 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v5 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v5.AuxInt = int32ToAuxInt(16) v5.AddArg2(src, mem) v4.AddArg(v5) v6 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v6.AddArg(v5) v7 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v8 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v9 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v9.AddArg2(src, mem) v8.AddArg(v9) v10 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v10.AddArg(v9) v7.AddArg4(dst, v8, v10, mem) v3.AddArg4(dst, v4, v6, v7) v.AddArg4(dst, v0, v2, v3) return true } // match: (Move [64] dst src mem) // result: (STP [48] dst (Select0 (LDP [48] src mem)) (Select1 (LDP [48] src mem)) (STP [32] dst (Select0 (LDP [32] src mem)) (Select1 (LDP [32] src mem)) (STP [16] dst (Select0 (LDP [16] src mem)) (Select1 (LDP [16] src mem)) (STP dst (Select0 (LDP src mem)) (Select1 (LDP src mem)) mem)))) for { if auxIntToInt64(v.AuxInt) != 64 { break } dst := v_0 src := v_1 mem := v_2 v.reset(OpARM64STP) v.AuxInt = int32ToAuxInt(48) v0 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v1 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v1.AuxInt = int32ToAuxInt(48) v1.AddArg2(src, mem) v0.AddArg(v1) v2 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v2.AddArg(v1) v3 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v3.AuxInt = int32ToAuxInt(32) v4 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v5 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v5.AuxInt = int32ToAuxInt(32) v5.AddArg2(src, mem) v4.AddArg(v5) v6 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v6.AddArg(v5) v7 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v7.AuxInt = int32ToAuxInt(16) v8 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v9 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v9.AuxInt = int32ToAuxInt(16) v9.AddArg2(src, mem) v8.AddArg(v9) v10 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v10.AddArg(v9) v11 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v12 := b.NewValue0(v.Pos, OpSelect0, typ.UInt64) v13 := b.NewValue0(v.Pos, OpARM64LDP, types.NewTuple(typ.UInt64, typ.UInt64)) v13.AddArg2(src, mem) v12.AddArg(v13) v14 := b.NewValue0(v.Pos, OpSelect1, typ.UInt64) v14.AddArg(v13) v11.AddArg4(dst, v12, v14, mem) v7.AddArg4(dst, v8, v10, v11) v3.AddArg4(dst, v4, v6, v7) v.AddArg4(dst, v0, v2, v3) return true } // match: (Move [s] dst src mem) // cond: s%16 != 0 && s%16 <= 8 && s > 16 // result: (Move [8] (OffPtr dst [s-8]) (OffPtr src [s-8]) (Move [s-s%16] dst src mem)) for { s := auxIntToInt64(v.AuxInt) dst := v_0 src := v_1 mem := v_2 if !(s%16 != 0 && s%16 <= 8 && s > 16) { break } v.reset(OpMove) v.AuxInt = int64ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpOffPtr, dst.Type) v0.AuxInt = int64ToAuxInt(s - 8) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpOffPtr, src.Type) v1.AuxInt = int64ToAuxInt(s - 8) v1.AddArg(src) v2 := b.NewValue0(v.Pos, OpMove, types.TypeMem) v2.AuxInt = int64ToAuxInt(s - s%16) v2.AddArg3(dst, src, mem) v.AddArg3(v0, v1, v2) return true } // match: (Move [s] dst src mem) // cond: s%16 != 0 && s%16 > 8 && s > 16 // result: (Move [16] (OffPtr dst [s-16]) (OffPtr src [s-16]) (Move [s-s%16] dst src mem)) for { s := auxIntToInt64(v.AuxInt) dst := v_0 src := v_1 mem := v_2 if !(s%16 != 0 && s%16 > 8 && s > 16) { break } v.reset(OpMove) v.AuxInt = int64ToAuxInt(16) v0 := b.NewValue0(v.Pos, OpOffPtr, dst.Type) v0.AuxInt = int64ToAuxInt(s - 16) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpOffPtr, src.Type) v1.AuxInt = int64ToAuxInt(s - 16) v1.AddArg(src) v2 := b.NewValue0(v.Pos, OpMove, types.TypeMem) v2.AuxInt = int64ToAuxInt(s - s%16) v2.AddArg3(dst, src, mem) v.AddArg3(v0, v1, v2) return true } // match: (Move [s] dst src mem) // cond: s > 64 && s <= 16*64 && s%16 == 0 && !config.noDuffDevice && logLargeCopy(v, s) // result: (DUFFCOPY [8 * (64 - s/16)] dst src mem) for { s := auxIntToInt64(v.AuxInt) dst := v_0 src := v_1 mem := v_2 if !(s > 64 && s <= 16*64 && s%16 == 0 && !config.noDuffDevice && logLargeCopy(v, s)) { break } v.reset(OpARM64DUFFCOPY) v.AuxInt = int64ToAuxInt(8 * (64 - s/16)) v.AddArg3(dst, src, mem) return true } // match: (Move [s] dst src mem) // cond: s%16 == 0 && (s > 16*64 || config.noDuffDevice) && logLargeCopy(v, s) // result: (LoweredMove dst src (ADDconst src [s-16]) mem) for { s := auxIntToInt64(v.AuxInt) dst := v_0 src := v_1 mem := v_2 if !(s%16 == 0 && (s > 16*64 || config.noDuffDevice) && logLargeCopy(v, s)) { break } v.reset(OpARM64LoweredMove) v0 := b.NewValue0(v.Pos, OpARM64ADDconst, src.Type) v0.AuxInt = int64ToAuxInt(s - 16) v0.AddArg(src) v.AddArg4(dst, src, v0, mem) return true } return false } func rewriteValueARM64_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: (NotEqual (CMPW (ZeroExt16to32 x) (ZeroExt16to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_OpNeq32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Neq32 x y) // result: (NotEqual (CMPW x y)) for { x := v_0 y := v_1 v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpNeq32F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Neq32F x y) // result: (NotEqual (FCMPS x y)) for { x := v_0 y := v_1 v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64FCMPS, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpNeq64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Neq64 x y) // result: (NotEqual (CMP x y)) for { x := v_0 y := v_1 v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpNeq64F(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Neq64F x y) // result: (NotEqual (FCMPD x y)) for { x := v_0 y := v_1 v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64FCMPD, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_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: (NotEqual (CMPW (ZeroExt8to32 x) (ZeroExt8to32 y))) for { x := v_0 y := v_1 v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v1.AddArg(x) v2 := b.NewValue0(v.Pos, OpZeroExt8to32, typ.UInt32) v2.AddArg(y) v0.AddArg2(v1, v2) v.AddArg(v0) return true } } func rewriteValueARM64_OpNeqPtr(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (NeqPtr x y) // result: (NotEqual (CMP x y)) for { x := v_0 y := v_1 v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMP, types.TypeFlags) v0.AddArg2(x, y) v.AddArg(v0) return true } } func rewriteValueARM64_OpNot(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Not x) // result: (XOR (MOVDconst [1]) x) for { x := v_0 v.reset(OpARM64XOR) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(1) v.AddArg2(v0, x) return true } } func rewriteValueARM64_OpOffPtr(v *Value) bool { v_0 := v.Args[0] // match: (OffPtr [off] ptr:(SP)) // cond: is32Bit(off) // result: (MOVDaddr [int32(off)] ptr) for { off := auxIntToInt64(v.AuxInt) ptr := v_0 if ptr.Op != OpSP || !(is32Bit(off)) { break } v.reset(OpARM64MOVDaddr) v.AuxInt = int32ToAuxInt(int32(off)) v.AddArg(ptr) return true } // match: (OffPtr [off] ptr) // result: (ADDconst [off] ptr) for { off := auxIntToInt64(v.AuxInt) ptr := v_0 v.reset(OpARM64ADDconst) v.AuxInt = int64ToAuxInt(off) v.AddArg(ptr) return true } } func rewriteValueARM64_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(OpARM64LoweredPanicBoundsA) 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(OpARM64LoweredPanicBoundsB) 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(OpARM64LoweredPanicBoundsC) v.AuxInt = int64ToAuxInt(kind) v.AddArg3(x, y, mem) return true } return false } func rewriteValueARM64_OpPopCount16(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (PopCount16 x) // result: (FMOVDfpgp (VUADDLV (VCNT (FMOVDgpfp (ZeroExt16to64 x))))) for { t := v.Type x := v_0 v.reset(OpARM64FMOVDfpgp) v.Type = t v0 := b.NewValue0(v.Pos, OpARM64VUADDLV, typ.Float64) v1 := b.NewValue0(v.Pos, OpARM64VCNT, typ.Float64) v2 := b.NewValue0(v.Pos, OpARM64FMOVDgpfp, typ.Float64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(x) v2.AddArg(v3) v1.AddArg(v2) v0.AddArg(v1) v.AddArg(v0) return true } } func rewriteValueARM64_OpPopCount32(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (PopCount32 x) // result: (FMOVDfpgp (VUADDLV (VCNT (FMOVDgpfp (ZeroExt32to64 x))))) for { t := v.Type x := v_0 v.reset(OpARM64FMOVDfpgp) v.Type = t v0 := b.NewValue0(v.Pos, OpARM64VUADDLV, typ.Float64) v1 := b.NewValue0(v.Pos, OpARM64VCNT, typ.Float64) v2 := b.NewValue0(v.Pos, OpARM64FMOVDgpfp, typ.Float64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(x) v2.AddArg(v3) v1.AddArg(v2) v0.AddArg(v1) v.AddArg(v0) return true } } func rewriteValueARM64_OpPopCount64(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (PopCount64 x) // result: (FMOVDfpgp (VUADDLV (VCNT (FMOVDgpfp x)))) for { t := v.Type x := v_0 v.reset(OpARM64FMOVDfpgp) v.Type = t v0 := b.NewValue0(v.Pos, OpARM64VUADDLV, typ.Float64) v1 := b.NewValue0(v.Pos, OpARM64VCNT, typ.Float64) v2 := b.NewValue0(v.Pos, OpARM64FMOVDgpfp, typ.Float64) v2.AddArg(x) v1.AddArg(v2) v0.AddArg(v1) v.AddArg(v0) return true } } func rewriteValueARM64_OpPrefetchCache(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (PrefetchCache addr mem) // result: (PRFM [0] addr mem) for { addr := v_0 mem := v_1 v.reset(OpARM64PRFM) v.AuxInt = int64ToAuxInt(0) v.AddArg2(addr, mem) return true } } func rewriteValueARM64_OpPrefetchCacheStreamed(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (PrefetchCacheStreamed addr mem) // result: (PRFM [1] addr mem) for { addr := v_0 mem := v_1 v.reset(OpARM64PRFM) v.AuxInt = int64ToAuxInt(1) v.AddArg2(addr, mem) return true } } func rewriteValueARM64_OpPubBarrier(v *Value) bool { v_0 := v.Args[0] // match: (PubBarrier mem) // result: (DMB [0xe] mem) for { mem := v_0 v.reset(OpARM64DMB) v.AuxInt = int64ToAuxInt(0xe) v.AddArg(mem) return true } } func rewriteValueARM64_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 (MOVDconst [c])) // result: (Or16 (Lsh16x64 x (MOVDconst [c&15])) (Rsh16Ux64 x (MOVDconst [-c&15]))) for { t := v.Type x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpOr16) v0 := b.NewValue0(v.Pos, OpLsh16x64, t) v1 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(c & 15) v0.AddArg2(x, v1) v2 := b.NewValue0(v.Pos, OpRsh16Ux64, t) v3 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(-c & 15) v2.AddArg2(x, v3) v.AddArg2(v0, v2) return true } // match: (RotateLeft16 x y) // result: (RORW (ORshiftLL (ZeroExt16to32 x) (ZeroExt16to32 x) [16]) (NEG y)) for { t := v.Type x := v_0 y := v_1 v.reset(OpARM64RORW) v.Type = t v0 := b.NewValue0(v.Pos, OpARM64ORshiftLL, typ.UInt32) v0.AuxInt = int64ToAuxInt(16) v1 := b.NewValue0(v.Pos, OpZeroExt16to32, typ.UInt32) v1.AddArg(x) v0.AddArg2(v1, v1) v2 := b.NewValue0(v.Pos, OpARM64NEG, typ.Int64) v2.AddArg(y) v.AddArg2(v0, v2) return true } } func rewriteValueARM64_OpRotateLeft32(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (RotateLeft32 x y) // result: (RORW x (NEG y)) for { x := v_0 y := v_1 v.reset(OpARM64RORW) v0 := b.NewValue0(v.Pos, OpARM64NEG, y.Type) v0.AddArg(y) v.AddArg2(x, v0) return true } } func rewriteValueARM64_OpRotateLeft64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (RotateLeft64 x y) // result: (ROR x (NEG y)) for { x := v_0 y := v_1 v.reset(OpARM64ROR) v0 := b.NewValue0(v.Pos, OpARM64NEG, y.Type) v0.AddArg(y) v.AddArg2(x, v0) return true } } func rewriteValueARM64_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 (MOVDconst [c])) // result: (Or8 (Lsh8x64 x (MOVDconst [c&7])) (Rsh8Ux64 x (MOVDconst [-c&7]))) for { t := v.Type x := v_0 if v_1.Op != OpARM64MOVDconst { break } c := auxIntToInt64(v_1.AuxInt) v.reset(OpOr8) v0 := b.NewValue0(v.Pos, OpLsh8x64, t) v1 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v1.AuxInt = int64ToAuxInt(c & 7) v0.AddArg2(x, v1) v2 := b.NewValue0(v.Pos, OpRsh8Ux64, t) v3 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v3.AuxInt = int64ToAuxInt(-c & 7) v2.AddArg2(x, v3) v.AddArg2(v0, v2) return true } // match: (RotateLeft8 x y) // result: (OR (SLL x (ANDconst [7] y)) (SRL (ZeroExt8to64 x) (ANDconst [7] (NEG y)))) for { t := v.Type x := v_0 y := v_1 v.reset(OpARM64OR) v.Type = t v0 := b.NewValue0(v.Pos, OpARM64SLL, t) v1 := b.NewValue0(v.Pos, OpARM64ANDconst, typ.Int64) v1.AuxInt = int64ToAuxInt(7) v1.AddArg(y) v0.AddArg2(x, v1) v2 := b.NewValue0(v.Pos, OpARM64SRL, t) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(x) v4 := b.NewValue0(v.Pos, OpARM64ANDconst, typ.Int64) v4.AuxInt = int64ToAuxInt(7) v5 := b.NewValue0(v.Pos, OpARM64NEG, typ.Int64) v5.AddArg(y) v4.AddArg(v5) v2.AddArg2(v3, v4) v.AddArg2(v0, v2) return true } } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt16to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh16Ux16 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt16to64 x) y) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt16to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh16Ux32 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt16to64 x) y) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt16to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh16Ux64 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt16to64 x) y) (Const64 [0]) (CMPconst [64] y)) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v3.AddArg(y) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt16to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh16Ux8 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt16to64 x) y) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt16to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh16x16 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt16to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt16to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt16to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh16x32 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt16to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt32to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt16to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh16x64 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt16to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] y))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v3.AddArg(y) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt16to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh16x8 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt16to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt8to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt16to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt32to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh32Ux16 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt32to64 x) y) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt32to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh32Ux32 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt32to64 x) y) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt32to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh32Ux64 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt32to64 x) y) (Const64 [0]) (CMPconst [64] y)) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v3.AddArg(y) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt32to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh32Ux8 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt32to64 x) y) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt32to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh32x16 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt32to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt16to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt32to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh32x32 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt32to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt32to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt32to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh32x64 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt32to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] y))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v3.AddArg(y) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt32to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh32x8 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt32to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt8to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt32to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v.AddArg2(x, y) return true } // match: (Rsh64Ux16 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL x y) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v.AddArg2(x, y) return true } // match: (Rsh64Ux32 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL x y) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_OpRsh64Ux64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Rsh64Ux64 x y) // cond: shiftIsBounded(v) // result: (SRL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v.AddArg2(x, y) return true } // match: (Rsh64Ux64 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL x y) (Const64 [0]) (CMPconst [64] y)) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v2.AddArg(y) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v.AddArg2(x, y) return true } // match: (Rsh64Ux8 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL x y) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v0.AddArg2(x, y) v1 := b.NewValue0(v.Pos, OpConst64, t) v1.AuxInt = int64ToAuxInt(0) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v.AddArg3(v0, v1, v2) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v.AddArg2(x, y) return true } // match: (Rsh64x16 x y) // cond: !shiftIsBounded(v) // result: (SRA x (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt16to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v0.AuxInt = opToAuxInt(OpARM64LessThanU) v1 := b.NewValue0(v.Pos, OpConst64, y.Type) v1.AuxInt = int64ToAuxInt(63) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v0.AddArg3(y, v1, v2) v.AddArg2(x, v0) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v.AddArg2(x, y) return true } // match: (Rsh64x32 x y) // cond: !shiftIsBounded(v) // result: (SRA x (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt32to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v0.AuxInt = opToAuxInt(OpARM64LessThanU) v1 := b.NewValue0(v.Pos, OpConst64, y.Type) v1.AuxInt = int64ToAuxInt(63) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v0.AddArg3(y, v1, v2) v.AddArg2(x, v0) return true } return false } func rewriteValueARM64_OpRsh64x64(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block // match: (Rsh64x64 x y) // cond: shiftIsBounded(v) // result: (SRA x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v.AddArg2(x, y) return true } // match: (Rsh64x64 x y) // cond: !shiftIsBounded(v) // result: (SRA x (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] y))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v0.AuxInt = opToAuxInt(OpARM64LessThanU) v1 := b.NewValue0(v.Pos, OpConst64, y.Type) v1.AuxInt = int64ToAuxInt(63) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v2.AddArg(y) v0.AddArg3(y, v1, v2) v.AddArg2(x, v0) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA x y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v.AddArg2(x, y) return true } // match: (Rsh64x8 x y) // cond: !shiftIsBounded(v) // result: (SRA x (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt8to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v0.AuxInt = opToAuxInt(OpARM64LessThanU) v1 := b.NewValue0(v.Pos, OpConst64, y.Type) v1.AuxInt = int64ToAuxInt(63) v2 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v2.AuxInt = int64ToAuxInt(64) v3 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v3.AddArg(y) v2.AddArg(v3) v0.AddArg3(y, v1, v2) v.AddArg2(x, v0) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt8to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh8Ux16 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt8to64 x) y) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt8to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh8Ux32 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt8to64 x) y) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt8to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh8Ux64 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt8to64 x) y) (Const64 [0]) (CMPconst [64] y)) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v3.AddArg(y) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRL (ZeroExt8to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRL) v.Type = t v0 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh8Ux8 x y) // cond: !shiftIsBounded(v) // result: (CSEL [OpARM64LessThanU] (SRL (ZeroExt8to64 x) y) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) for { t := v.Type x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64CSEL) v.AuxInt = opToAuxInt(OpARM64LessThanU) v0 := b.NewValue0(v.Pos, OpARM64SRL, t) v1 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v1.AddArg(x) v0.AddArg2(v1, y) v2 := b.NewValue0(v.Pos, OpConst64, t) v2.AuxInt = int64ToAuxInt(0) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v.AddArg3(v0, v2, v3) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt8to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh8x16 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt8to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt16to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt16to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt8to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh8x32 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt8to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt32to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt32to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt8to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh8x64 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt8to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] y))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v3.AddArg(y) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_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) // cond: shiftIsBounded(v) // result: (SRA (SignExt8to64 x) y) for { t := v.Type x := v_0 y := v_1 if !(shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v.Type = t v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v.AddArg2(v0, y) return true } // match: (Rsh8x8 x y) // cond: !shiftIsBounded(v) // result: (SRA (SignExt8to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] (ZeroExt8to64 y)))) for { x := v_0 y := v_1 if !(!shiftIsBounded(v)) { break } v.reset(OpARM64SRA) v0 := b.NewValue0(v.Pos, OpSignExt8to64, typ.Int64) v0.AddArg(x) v1 := b.NewValue0(v.Pos, OpARM64CSEL, y.Type) v1.AuxInt = opToAuxInt(OpARM64LessThanU) v2 := b.NewValue0(v.Pos, OpConst64, y.Type) v2.AuxInt = int64ToAuxInt(63) v3 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v3.AuxInt = int64ToAuxInt(64) v4 := b.NewValue0(v.Pos, OpZeroExt8to64, typ.UInt64) v4.AddArg(y) v3.AddArg(v4) v1.AddArg3(y, v2, v3) v.AddArg2(v0, v1) return true } return false } func rewriteValueARM64_OpSelect0(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Select0 (Mul64uhilo x y)) // result: (UMULH x y) for { if v_0.Op != OpMul64uhilo { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64UMULH) v.AddArg2(x, y) return true } // match: (Select0 (Add64carry x y c)) // result: (Select0 (ADCSflags x y (Select1 (ADDSconstflags [-1] c)))) for { if v_0.Op != OpAdd64carry { break } c := v_0.Args[2] x := v_0.Args[0] y := v_0.Args[1] v.reset(OpSelect0) v.Type = typ.UInt64 v0 := b.NewValue0(v.Pos, OpARM64ADCSflags, types.NewTuple(typ.UInt64, types.TypeFlags)) v1 := b.NewValue0(v.Pos, OpSelect1, types.TypeFlags) v2 := b.NewValue0(v.Pos, OpARM64ADDSconstflags, types.NewTuple(typ.UInt64, types.TypeFlags)) v2.AuxInt = int64ToAuxInt(-1) v2.AddArg(c) v1.AddArg(v2) v0.AddArg3(x, y, v1) v.AddArg(v0) return true } // match: (Select0 (Sub64borrow x y bo)) // result: (Select0 (SBCSflags x y (Select1 (NEGSflags bo)))) for { if v_0.Op != OpSub64borrow { break } bo := v_0.Args[2] x := v_0.Args[0] y := v_0.Args[1] v.reset(OpSelect0) v.Type = typ.UInt64 v0 := b.NewValue0(v.Pos, OpARM64SBCSflags, types.NewTuple(typ.UInt64, types.TypeFlags)) v1 := b.NewValue0(v.Pos, OpSelect1, types.TypeFlags) v2 := b.NewValue0(v.Pos, OpARM64NEGSflags, types.NewTuple(typ.UInt64, types.TypeFlags)) v2.AddArg(bo) v1.AddArg(v2) v0.AddArg3(x, y, v1) v.AddArg(v0) return true } // match: (Select0 (Mul64uover x y)) // result: (MUL x y) for { if v_0.Op != OpMul64uover { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64MUL) v.AddArg2(x, y) return true } return false } func rewriteValueARM64_OpSelect1(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (Select1 (Mul64uhilo x y)) // result: (MUL x y) for { if v_0.Op != OpMul64uhilo { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64MUL) v.AddArg2(x, y) return true } // match: (Select1 (Add64carry x y c)) // result: (ADCzerocarry (Select1 (ADCSflags x y (Select1 (ADDSconstflags [-1] c))))) for { if v_0.Op != OpAdd64carry { break } c := v_0.Args[2] x := v_0.Args[0] y := v_0.Args[1] v.reset(OpARM64ADCzerocarry) v.Type = typ.UInt64 v0 := b.NewValue0(v.Pos, OpSelect1, types.TypeFlags) v1 := b.NewValue0(v.Pos, OpARM64ADCSflags, types.NewTuple(typ.UInt64, types.TypeFlags)) v2 := b.NewValue0(v.Pos, OpSelect1, types.TypeFlags) v3 := b.NewValue0(v.Pos, OpARM64ADDSconstflags, types.NewTuple(typ.UInt64, types.TypeFlags)) v3.AuxInt = int64ToAuxInt(-1) v3.AddArg(c) v2.AddArg(v3) v1.AddArg3(x, y, v2) v0.AddArg(v1) v.AddArg(v0) return true } // match: (Select1 (Sub64borrow x y bo)) // result: (NEG (NGCzerocarry (Select1 (SBCSflags x y (Select1 (NEGSflags bo)))))) for { if v_0.Op != OpSub64borrow { break } bo := v_0.Args[2] x := v_0.Args[0] y := v_0.Args[1] v.reset(OpARM64NEG) v.Type = typ.UInt64 v0 := b.NewValue0(v.Pos, OpARM64NGCzerocarry, typ.UInt64) v1 := b.NewValue0(v.Pos, OpSelect1, types.TypeFlags) v2 := b.NewValue0(v.Pos, OpARM64SBCSflags, types.NewTuple(typ.UInt64, types.TypeFlags)) v3 := b.NewValue0(v.Pos, OpSelect1, types.TypeFlags) v4 := b.NewValue0(v.Pos, OpARM64NEGSflags, types.NewTuple(typ.UInt64, types.TypeFlags)) v4.AddArg(bo) v3.AddArg(v4) v2.AddArg3(x, y, v3) v1.AddArg(v2) v0.AddArg(v1) v.AddArg(v0) return true } // match: (Select1 (Mul64uover x y)) // result: (NotEqual (CMPconst (UMULH x y) [0])) for { if v_0.Op != OpMul64uover { break } y := v_0.Args[1] x := v_0.Args[0] v.reset(OpARM64NotEqual) v0 := b.NewValue0(v.Pos, OpARM64CMPconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64UMULH, typ.UInt64) v1.AddArg2(x, y) v0.AddArg(v1) v.AddArg(v0) return true } return false } func rewriteValueARM64_OpSelectN(v *Value) bool { v_0 := v.Args[0] b := v.Block config := b.Func.Config // match: (SelectN [0] call:(CALLstatic {sym} s1:(MOVDstore _ (MOVDconst [sz]) s2:(MOVDstore _ src s3:(MOVDstore {t} _ dst mem))))) // cond: sz >= 0 && isSameCall(sym, "runtime.memmove") && s1.Uses == 1 && s2.Uses == 1 && s3.Uses == 1 && isInlinableMemmove(dst, src, sz, config) && clobber(s1, s2, s3, call) // result: (Move [sz] dst src mem) for { if auxIntToInt64(v.AuxInt) != 0 { break } call := v_0 if call.Op != OpARM64CALLstatic || len(call.Args) != 1 { break } sym := auxToCall(call.Aux) s1 := call.Args[0] if s1.Op != OpARM64MOVDstore { break } _ = s1.Args[2] s1_1 := s1.Args[1] if s1_1.Op != OpARM64MOVDconst { break } sz := auxIntToInt64(s1_1.AuxInt) s2 := s1.Args[2] if s2.Op != OpARM64MOVDstore { break } _ = s2.Args[2] src := s2.Args[1] s3 := s2.Args[2] if s3.Op != OpARM64MOVDstore { break } mem := s3.Args[2] dst := s3.Args[1] if !(sz >= 0 && isSameCall(sym, "runtime.memmove") && s1.Uses == 1 && s2.Uses == 1 && s3.Uses == 1 && isInlinableMemmove(dst, src, sz, config) && clobber(s1, s2, s3, call)) { break } v.reset(OpMove) v.AuxInt = int64ToAuxInt(sz) v.AddArg3(dst, src, mem) return true } // match: (SelectN [0] call:(CALLstatic {sym} dst src (MOVDconst [sz]) mem)) // cond: sz >= 0 && isSameCall(sym, "runtime.memmove") && call.Uses == 1 && isInlinableMemmove(dst, src, sz, config) && clobber(call) // result: (Move [sz] dst src mem) for { if auxIntToInt64(v.AuxInt) != 0 { break } call := v_0 if call.Op != OpARM64CALLstatic || len(call.Args) != 4 { break } sym := auxToCall(call.Aux) mem := call.Args[3] dst := call.Args[0] src := call.Args[1] call_2 := call.Args[2] if call_2.Op != OpARM64MOVDconst { break } sz := auxIntToInt64(call_2.AuxInt) if !(sz >= 0 && isSameCall(sym, "runtime.memmove") && call.Uses == 1 && isInlinableMemmove(dst, src, sz, config) && clobber(call)) { break } v.reset(OpMove) v.AuxInt = int64ToAuxInt(sz) v.AddArg3(dst, src, mem) return true } return false } func rewriteValueARM64_OpSlicemask(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (Slicemask x) // result: (SRAconst (NEG x) [63]) for { t := v.Type x := v_0 v.reset(OpARM64SRAconst) v.AuxInt = int64ToAuxInt(63) v0 := b.NewValue0(v.Pos, OpARM64NEG, t) v0.AddArg(x) v.AddArg(v0) return true } } func rewriteValueARM64_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(OpARM64MOVBstore) 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(OpARM64MOVHstore) 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(OpARM64MOVWstore) 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(OpARM64MOVDstore) v.AddArg3(ptr, val, mem) return true } // match: (Store {t} ptr val mem) // cond: t.Size() == 4 && t.IsFloat() // result: (FMOVSstore 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(OpARM64FMOVSstore) v.AddArg3(ptr, val, mem) return true } // match: (Store {t} ptr val mem) // cond: t.Size() == 8 && t.IsFloat() // result: (FMOVDstore 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(OpARM64FMOVDstore) v.AddArg3(ptr, val, mem) return true } return false } func rewriteValueARM64_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 (MOVDconst [0]) mem) for { if auxIntToInt64(v.AuxInt) != 1 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVBstore) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg3(ptr, v0, mem) return true } // match: (Zero [2] ptr mem) // result: (MOVHstore ptr (MOVDconst [0]) mem) for { if auxIntToInt64(v.AuxInt) != 2 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVHstore) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg3(ptr, v0, mem) return true } // match: (Zero [4] ptr mem) // result: (MOVWstore ptr (MOVDconst [0]) mem) for { if auxIntToInt64(v.AuxInt) != 4 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVWstore) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg3(ptr, v0, mem) return true } // match: (Zero [3] ptr mem) // result: (MOVBstore [2] ptr (MOVDconst [0]) (MOVHstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 3 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(2) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVHstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [5] ptr mem) // result: (MOVBstore [4] ptr (MOVDconst [0]) (MOVWstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 5 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(4) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVWstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [6] ptr mem) // result: (MOVHstore [4] ptr (MOVDconst [0]) (MOVWstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 6 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(4) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVWstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [7] ptr mem) // result: (MOVWstore [3] ptr (MOVDconst [0]) (MOVWstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 7 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(3) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVWstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [8] ptr mem) // result: (MOVDstore ptr (MOVDconst [0]) mem) for { if auxIntToInt64(v.AuxInt) != 8 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVDstore) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg3(ptr, v0, mem) return true } // match: (Zero [9] ptr mem) // result: (MOVBstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 9 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVBstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [10] ptr mem) // result: (MOVHstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 10 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVHstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [11] ptr mem) // result: (MOVDstore [3] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 11 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(3) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [12] ptr mem) // result: (MOVWstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 12 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVWstore) v.AuxInt = int32ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [13] ptr mem) // result: (MOVDstore [5] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 13 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(5) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [14] ptr mem) // result: (MOVDstore [6] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 14 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(6) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [15] ptr mem) // result: (MOVDstore [7] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 15 { break } ptr := v_0 mem := v_1 v.reset(OpARM64MOVDstore) v.AuxInt = int32ToAuxInt(7) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64MOVDstore, types.TypeMem) v1.AddArg3(ptr, v0, mem) v.AddArg3(ptr, v0, v1) return true } // match: (Zero [16] ptr mem) // result: (STP [0] ptr (MOVDconst [0]) (MOVDconst [0]) mem) for { if auxIntToInt64(v.AuxInt) != 16 { break } ptr := v_0 mem := v_1 v.reset(OpARM64STP) v.AuxInt = int32ToAuxInt(0) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v.AddArg4(ptr, v0, v0, mem) return true } // match: (Zero [32] ptr mem) // result: (STP [16] ptr (MOVDconst [0]) (MOVDconst [0]) (STP [0] ptr (MOVDconst [0]) (MOVDconst [0]) mem)) for { if auxIntToInt64(v.AuxInt) != 32 { break } ptr := v_0 mem := v_1 v.reset(OpARM64STP) v.AuxInt = int32ToAuxInt(16) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v1.AuxInt = int32ToAuxInt(0) v1.AddArg4(ptr, v0, v0, mem) v.AddArg4(ptr, v0, v0, v1) return true } // match: (Zero [48] ptr mem) // result: (STP [32] ptr (MOVDconst [0]) (MOVDconst [0]) (STP [16] ptr (MOVDconst [0]) (MOVDconst [0]) (STP [0] ptr (MOVDconst [0]) (MOVDconst [0]) mem))) for { if auxIntToInt64(v.AuxInt) != 48 { break } ptr := v_0 mem := v_1 v.reset(OpARM64STP) v.AuxInt = int32ToAuxInt(32) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v1.AuxInt = int32ToAuxInt(16) v2 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v2.AuxInt = int32ToAuxInt(0) v2.AddArg4(ptr, v0, v0, mem) v1.AddArg4(ptr, v0, v0, v2) v.AddArg4(ptr, v0, v0, v1) return true } // match: (Zero [64] ptr mem) // result: (STP [48] ptr (MOVDconst [0]) (MOVDconst [0]) (STP [32] ptr (MOVDconst [0]) (MOVDconst [0]) (STP [16] ptr (MOVDconst [0]) (MOVDconst [0]) (STP [0] ptr (MOVDconst [0]) (MOVDconst [0]) mem)))) for { if auxIntToInt64(v.AuxInt) != 64 { break } ptr := v_0 mem := v_1 v.reset(OpARM64STP) v.AuxInt = int32ToAuxInt(48) v0 := b.NewValue0(v.Pos, OpARM64MOVDconst, typ.UInt64) v0.AuxInt = int64ToAuxInt(0) v1 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v1.AuxInt = int32ToAuxInt(32) v2 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v2.AuxInt = int32ToAuxInt(16) v3 := b.NewValue0(v.Pos, OpARM64STP, types.TypeMem) v3.AuxInt = int32ToAuxInt(0) v3.AddArg4(ptr, v0, v0, mem) v2.AddArg4(ptr, v0, v0, v3) v1.AddArg4(ptr, v0, v0, v2) v.AddArg4(ptr, v0, v0, v1) return true } // match: (Zero [s] ptr mem) // cond: s%16 != 0 && s%16 <= 8 && s > 16 // result: (Zero [8] (OffPtr ptr [s-8]) (Zero [s-s%16] ptr mem)) for { s := auxIntToInt64(v.AuxInt) ptr := v_0 mem := v_1 if !(s%16 != 0 && s%16 <= 8 && s > 16) { break } v.reset(OpZero) v.AuxInt = int64ToAuxInt(8) v0 := b.NewValue0(v.Pos, OpOffPtr, ptr.Type) v0.AuxInt = int64ToAuxInt(s - 8) v0.AddArg(ptr) v1 := b.NewValue0(v.Pos, OpZero, types.TypeMem) v1.AuxInt = int64ToAuxInt(s - s%16) v1.AddArg2(ptr, mem) v.AddArg2(v0, v1) return true } // match: (Zero [s] ptr mem) // cond: s%16 != 0 && s%16 > 8 && s > 16 // result: (Zero [16] (OffPtr ptr [s-16]) (Zero [s-s%16] ptr mem)) for { s := auxIntToInt64(v.AuxInt) ptr := v_0 mem := v_1 if !(s%16 != 0 && s%16 > 8 && s > 16) { break } v.reset(OpZero) v.AuxInt = int64ToAuxInt(16) v0 := b.NewValue0(v.Pos, OpOffPtr, ptr.Type) v0.AuxInt = int64ToAuxInt(s - 16) v0.AddArg(ptr) v1 := b.NewValue0(v.Pos, OpZero, types.TypeMem) v1.AuxInt = int64ToAuxInt(s - s%16) v1.AddArg2(ptr, mem) v.AddArg2(v0, v1) return true } // match: (Zero [s] ptr mem) // cond: s%16 == 0 && s > 64 && s <= 16*64 && !config.noDuffDevice // result: (DUFFZERO [4 * (64 - s/16)] ptr mem) for { s := auxIntToInt64(v.AuxInt) ptr := v_0 mem := v_1 if !(s%16 == 0 && s > 64 && s <= 16*64 && !config.noDuffDevice) { break } v.reset(OpARM64DUFFZERO) v.AuxInt = int64ToAuxInt(4 * (64 - s/16)) v.AddArg2(ptr, mem) return true } // match: (Zero [s] ptr mem) // cond: s%16 == 0 && (s > 16*64 || config.noDuffDevice) // result: (LoweredZero ptr (ADDconst [s-16] ptr) mem) for { s := auxIntToInt64(v.AuxInt) ptr := v_0 mem := v_1 if !(s%16 == 0 && (s > 16*64 || config.noDuffDevice)) { break } v.reset(OpARM64LoweredZero) v0 := b.NewValue0(v.Pos, OpARM64ADDconst, ptr.Type) v0.AuxInt = int64ToAuxInt(s - 16) v0.AddArg(ptr) v.AddArg3(ptr, v0, mem) return true } return false } func rewriteBlockARM64(b *Block) bool { typ := &b.Func.Config.Types switch b.Kind { case BlockARM64EQ: // match: (EQ (CMPconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (EQ (TST x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64EQ, v0) return true } break } // match: (EQ (CMPconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (EQ (TSTconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (CMPWconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (EQ (TSTW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64EQ, v0) return true } break } // match: (EQ (CMPWconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (EQ (TSTWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (CMPconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (EQ (CMNconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (CMPWconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (EQ (CMNWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (CMPconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (EQ (CMN x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64EQ, v0) return true } break } // match: (EQ (CMPWconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (EQ (CMNW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64EQ, v0) return true } break } // match: (EQ (CMP x z:(NEG y)) yes no) // cond: z.Uses == 1 // result: (EQ (CMN x y) yes no) for b.Controls[0].Op == OpARM64CMP { v_0 := b.Controls[0] _ = v_0.Args[1] x := v_0.Args[0] z := v_0.Args[1] if z.Op != OpARM64NEG { break } y := z.Args[0] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (CMPW x z:(NEG y)) yes no) // cond: z.Uses == 1 // result: (EQ (CMNW x y) yes no) for b.Controls[0].Op == OpARM64CMPW { v_0 := b.Controls[0] _ = v_0.Args[1] x := v_0.Args[0] z := v_0.Args[1] if z.Op != OpARM64NEG { break } y := z.Args[0] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (CMPconst [0] x) yes no) // result: (Z x yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockARM64Z, x) return true } // match: (EQ (CMPWconst [0] x) yes no) // result: (ZW x yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockARM64ZW, x) return true } // match: (EQ (CMPconst [0] z:(MADD a x y)) yes no) // cond: z.Uses==1 // result: (EQ (CMN a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (CMPconst [0] z:(MSUB a x y)) yes no) // cond: z.Uses==1 // result: (EQ (CMP a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (CMPWconst [0] z:(MADDW a x y)) yes no) // cond: z.Uses==1 // result: (EQ (CMNW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (CMPWconst [0] z:(MSUBW a x y)) yes no) // cond: z.Uses==1 // result: (EQ (CMPW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64EQ, v0) return true } // match: (EQ (TSTconst [c] x) yes no) // cond: oneBit(c) // result: (TBZ [int64(ntz64(c))] x yes no) for b.Controls[0].Op == OpARM64TSTconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(oneBit(c)) { break } b.resetWithControl(BlockARM64TBZ, x) b.AuxInt = int64ToAuxInt(int64(ntz64(c))) return true } // match: (EQ (TSTWconst [c] x) yes no) // cond: oneBit(int64(uint32(c))) // result: (TBZ [int64(ntz64(int64(uint32(c))))] x yes no) for b.Controls[0].Op == OpARM64TSTWconst { v_0 := b.Controls[0] c := auxIntToInt32(v_0.AuxInt) x := v_0.Args[0] if !(oneBit(int64(uint32(c)))) { break } b.resetWithControl(BlockARM64TBZ, x) b.AuxInt = int64ToAuxInt(int64(ntz64(int64(uint32(c))))) return true } // match: (EQ (FlagConstant [fc]) yes no) // cond: fc.eq() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.eq()) { break } b.Reset(BlockFirst) return true } // match: (EQ (FlagConstant [fc]) yes no) // cond: !fc.eq() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.eq()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (EQ (InvertFlags cmp) yes no) // result: (EQ cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64EQ, cmp) return true } case BlockARM64FGE: // match: (FGE (InvertFlags cmp) yes no) // result: (FLE cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64FLE, cmp) return true } case BlockARM64FGT: // match: (FGT (InvertFlags cmp) yes no) // result: (FLT cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64FLT, cmp) return true } case BlockARM64FLE: // match: (FLE (InvertFlags cmp) yes no) // result: (FGE cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64FGE, cmp) return true } case BlockARM64FLT: // match: (FLT (InvertFlags cmp) yes no) // result: (FGT cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64FGT, cmp) return true } case BlockARM64GE: // match: (GE (CMPconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (GE (TST x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64GE, v0) return true } break } // match: (GE (CMPconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (GE (TSTconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64GE, v0) return true } // match: (GE (CMPWconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (GE (TSTW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64GE, v0) return true } break } // match: (GE (CMPWconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (GE (TSTWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64GE, v0) return true } // match: (GE (CMPconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (GEnoov (CMNconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64GEnoov, v0) return true } // match: (GE (CMPWconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (GEnoov (CMNWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64GEnoov, v0) return true } // match: (GE (CMPconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (GEnoov (CMN x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64GEnoov, v0) return true } break } // match: (GE (CMPWconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (GEnoov (CMNW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64GEnoov, v0) return true } break } // match: (GE (CMPconst [0] z:(MADD a x y)) yes no) // cond: z.Uses==1 // result: (GEnoov (CMN a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64GEnoov, v0) return true } // match: (GE (CMPconst [0] z:(MSUB a x y)) yes no) // cond: z.Uses==1 // result: (GEnoov (CMP a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64GEnoov, v0) return true } // match: (GE (CMPWconst [0] z:(MADDW a x y)) yes no) // cond: z.Uses==1 // result: (GEnoov (CMNW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64GEnoov, v0) return true } // match: (GE (CMPWconst [0] z:(MSUBW a x y)) yes no) // cond: z.Uses==1 // result: (GEnoov (CMPW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64GEnoov, v0) return true } // match: (GE (CMPWconst [0] x) yes no) // result: (TBZ [31] x yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockARM64TBZ, x) b.AuxInt = int64ToAuxInt(31) return true } // match: (GE (CMPconst [0] x) yes no) // result: (TBZ [63] x yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockARM64TBZ, x) b.AuxInt = int64ToAuxInt(63) return true } // match: (GE (FlagConstant [fc]) yes no) // cond: fc.ge() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.ge()) { break } b.Reset(BlockFirst) return true } // match: (GE (FlagConstant [fc]) yes no) // cond: !fc.ge() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.ge()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (GE (InvertFlags cmp) yes no) // result: (LE cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64LE, cmp) return true } case BlockARM64GEnoov: // match: (GEnoov (FlagConstant [fc]) yes no) // cond: fc.geNoov() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.geNoov()) { break } b.Reset(BlockFirst) return true } // match: (GEnoov (FlagConstant [fc]) yes no) // cond: !fc.geNoov() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.geNoov()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (GEnoov (InvertFlags cmp) yes no) // result: (LEnoov cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64LEnoov, cmp) return true } case BlockARM64GT: // match: (GT (CMPconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (GT (TST x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64GT, v0) return true } break } // match: (GT (CMPconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (GT (TSTconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64GT, v0) return true } // match: (GT (CMPWconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (GT (TSTW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64GT, v0) return true } break } // match: (GT (CMPWconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (GT (TSTWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64GT, v0) return true } // match: (GT (CMPconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (GTnoov (CMNconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64GTnoov, v0) return true } // match: (GT (CMPWconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (GTnoov (CMNWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64GTnoov, v0) return true } // match: (GT (CMPconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (GTnoov (CMN x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64GTnoov, v0) return true } break } // match: (GT (CMPWconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (GTnoov (CMNW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64GTnoov, v0) return true } break } // match: (GT (CMPconst [0] z:(MADD a x y)) yes no) // cond: z.Uses==1 // result: (GTnoov (CMN a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64GTnoov, v0) return true } // match: (GT (CMPconst [0] z:(MSUB a x y)) yes no) // cond: z.Uses==1 // result: (GTnoov (CMP a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64GTnoov, v0) return true } // match: (GT (CMPWconst [0] z:(MADDW a x y)) yes no) // cond: z.Uses==1 // result: (GTnoov (CMNW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64GTnoov, v0) return true } // match: (GT (CMPWconst [0] z:(MSUBW a x y)) yes no) // cond: z.Uses==1 // result: (GTnoov (CMPW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64GTnoov, v0) return true } // match: (GT (FlagConstant [fc]) yes no) // cond: fc.gt() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.gt()) { break } b.Reset(BlockFirst) return true } // match: (GT (FlagConstant [fc]) yes no) // cond: !fc.gt() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.gt()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (GT (InvertFlags cmp) yes no) // result: (LT cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64LT, cmp) return true } case BlockARM64GTnoov: // match: (GTnoov (FlagConstant [fc]) yes no) // cond: fc.gtNoov() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.gtNoov()) { break } b.Reset(BlockFirst) return true } // match: (GTnoov (FlagConstant [fc]) yes no) // cond: !fc.gtNoov() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.gtNoov()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (GTnoov (InvertFlags cmp) yes no) // result: (LTnoov cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64LTnoov, cmp) return true } case BlockIf: // match: (If (Equal cc) yes no) // result: (EQ cc yes no) for b.Controls[0].Op == OpARM64Equal { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64EQ, cc) return true } // match: (If (NotEqual cc) yes no) // result: (NE cc yes no) for b.Controls[0].Op == OpARM64NotEqual { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64NE, cc) return true } // match: (If (LessThan cc) yes no) // result: (LT cc yes no) for b.Controls[0].Op == OpARM64LessThan { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64LT, cc) return true } // match: (If (LessThanU cc) yes no) // result: (ULT cc yes no) for b.Controls[0].Op == OpARM64LessThanU { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64ULT, cc) return true } // match: (If (LessEqual cc) yes no) // result: (LE cc yes no) for b.Controls[0].Op == OpARM64LessEqual { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64LE, cc) return true } // match: (If (LessEqualU cc) yes no) // result: (ULE cc yes no) for b.Controls[0].Op == OpARM64LessEqualU { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64ULE, cc) return true } // match: (If (GreaterThan cc) yes no) // result: (GT cc yes no) for b.Controls[0].Op == OpARM64GreaterThan { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64GT, cc) return true } // match: (If (GreaterThanU cc) yes no) // result: (UGT cc yes no) for b.Controls[0].Op == OpARM64GreaterThanU { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64UGT, cc) return true } // match: (If (GreaterEqual cc) yes no) // result: (GE cc yes no) for b.Controls[0].Op == OpARM64GreaterEqual { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64GE, cc) return true } // match: (If (GreaterEqualU cc) yes no) // result: (UGE cc yes no) for b.Controls[0].Op == OpARM64GreaterEqualU { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64UGE, cc) return true } // match: (If (LessThanF cc) yes no) // result: (FLT cc yes no) for b.Controls[0].Op == OpARM64LessThanF { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64FLT, cc) return true } // match: (If (LessEqualF cc) yes no) // result: (FLE cc yes no) for b.Controls[0].Op == OpARM64LessEqualF { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64FLE, cc) return true } // match: (If (GreaterThanF cc) yes no) // result: (FGT cc yes no) for b.Controls[0].Op == OpARM64GreaterThanF { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64FGT, cc) return true } // match: (If (GreaterEqualF cc) yes no) // result: (FGE cc yes no) for b.Controls[0].Op == OpARM64GreaterEqualF { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64FGE, cc) return true } // match: (If cond yes no) // result: (TBNZ [0] cond yes no) for { cond := b.Controls[0] b.resetWithControl(BlockARM64TBNZ, cond) b.AuxInt = int64ToAuxInt(0) return true } case BlockJumpTable: // match: (JumpTable idx) // result: (JUMPTABLE {makeJumpTableSym(b)} idx (MOVDaddr {makeJumpTableSym(b)} (SB))) for { idx := b.Controls[0] v0 := b.NewValue0(b.Pos, OpARM64MOVDaddr, typ.Uintptr) v0.Aux = symToAux(makeJumpTableSym(b)) v1 := b.NewValue0(b.Pos, OpSB, typ.Uintptr) v0.AddArg(v1) b.resetWithControl2(BlockARM64JUMPTABLE, idx, v0) b.Aux = symToAux(makeJumpTableSym(b)) return true } case BlockARM64LE: // match: (LE (CMPconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (LE (TST x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64LE, v0) return true } break } // match: (LE (CMPconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (LE (TSTconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64LE, v0) return true } // match: (LE (CMPWconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (LE (TSTW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64LE, v0) return true } break } // match: (LE (CMPWconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (LE (TSTWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64LE, v0) return true } // match: (LE (CMPconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (LEnoov (CMNconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64LEnoov, v0) return true } // match: (LE (CMPWconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (LEnoov (CMNWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64LEnoov, v0) return true } // match: (LE (CMPconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (LEnoov (CMN x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64LEnoov, v0) return true } break } // match: (LE (CMPWconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (LEnoov (CMNW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64LEnoov, v0) return true } break } // match: (LE (CMPconst [0] z:(MADD a x y)) yes no) // cond: z.Uses==1 // result: (LEnoov (CMN a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64LEnoov, v0) return true } // match: (LE (CMPconst [0] z:(MSUB a x y)) yes no) // cond: z.Uses==1 // result: (LEnoov (CMP a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64LEnoov, v0) return true } // match: (LE (CMPWconst [0] z:(MADDW a x y)) yes no) // cond: z.Uses==1 // result: (LEnoov (CMNW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64LEnoov, v0) return true } // match: (LE (CMPWconst [0] z:(MSUBW a x y)) yes no) // cond: z.Uses==1 // result: (LEnoov (CMPW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64LEnoov, v0) return true } // match: (LE (FlagConstant [fc]) yes no) // cond: fc.le() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.le()) { break } b.Reset(BlockFirst) return true } // match: (LE (FlagConstant [fc]) yes no) // cond: !fc.le() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.le()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (LE (InvertFlags cmp) yes no) // result: (GE cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64GE, cmp) return true } case BlockARM64LEnoov: // match: (LEnoov (FlagConstant [fc]) yes no) // cond: fc.leNoov() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.leNoov()) { break } b.Reset(BlockFirst) return true } // match: (LEnoov (FlagConstant [fc]) yes no) // cond: !fc.leNoov() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.leNoov()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (LEnoov (InvertFlags cmp) yes no) // result: (GEnoov cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64GEnoov, cmp) return true } case BlockARM64LT: // match: (LT (CMPconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (LT (TST x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64LT, v0) return true } break } // match: (LT (CMPconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (LT (TSTconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64LT, v0) return true } // match: (LT (CMPWconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (LT (TSTW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64LT, v0) return true } break } // match: (LT (CMPWconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (LT (TSTWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64LT, v0) return true } // match: (LT (CMPconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (LTnoov (CMNconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64LTnoov, v0) return true } // match: (LT (CMPWconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (LTnoov (CMNWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64LTnoov, v0) return true } // match: (LT (CMPconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (LTnoov (CMN x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64LTnoov, v0) return true } break } // match: (LT (CMPWconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (LTnoov (CMNW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64LTnoov, v0) return true } break } // match: (LT (CMPconst [0] z:(MADD a x y)) yes no) // cond: z.Uses==1 // result: (LTnoov (CMN a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64LTnoov, v0) return true } // match: (LT (CMPconst [0] z:(MSUB a x y)) yes no) // cond: z.Uses==1 // result: (LTnoov (CMP a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64LTnoov, v0) return true } // match: (LT (CMPWconst [0] z:(MADDW a x y)) yes no) // cond: z.Uses==1 // result: (LTnoov (CMNW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64LTnoov, v0) return true } // match: (LT (CMPWconst [0] z:(MSUBW a x y)) yes no) // cond: z.Uses==1 // result: (LTnoov (CMPW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64LTnoov, v0) return true } // match: (LT (CMPWconst [0] x) yes no) // result: (TBNZ [31] x yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockARM64TBNZ, x) b.AuxInt = int64ToAuxInt(31) return true } // match: (LT (CMPconst [0] x) yes no) // result: (TBNZ [63] x yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockARM64TBNZ, x) b.AuxInt = int64ToAuxInt(63) return true } // match: (LT (FlagConstant [fc]) yes no) // cond: fc.lt() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.lt()) { break } b.Reset(BlockFirst) return true } // match: (LT (FlagConstant [fc]) yes no) // cond: !fc.lt() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.lt()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (LT (InvertFlags cmp) yes no) // result: (GT cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64GT, cmp) return true } case BlockARM64LTnoov: // match: (LTnoov (FlagConstant [fc]) yes no) // cond: fc.ltNoov() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.ltNoov()) { break } b.Reset(BlockFirst) return true } // match: (LTnoov (FlagConstant [fc]) yes no) // cond: !fc.ltNoov() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.ltNoov()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (LTnoov (InvertFlags cmp) yes no) // result: (GTnoov cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64GTnoov, cmp) return true } case BlockARM64NE: // match: (NE (CMPconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (NE (TST x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TST, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64NE, v0) return true } break } // match: (NE (CMPconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (NE (TSTconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (CMPWconst [0] z:(AND x y)) yes no) // cond: z.Uses == 1 // result: (NE (TSTW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64AND { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64TSTW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64NE, v0) return true } break } // match: (NE (CMPWconst [0] x:(ANDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (NE (TSTWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ANDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64TSTWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (CMPconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (NE (CMNconst [c] y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNconst, types.TypeFlags) v0.AuxInt = int64ToAuxInt(c) v0.AddArg(y) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (CMPWconst [0] x:(ADDconst [c] y)) yes no) // cond: x.Uses == 1 // result: (NE (CMNWconst [int32(c)] y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] if x.Op != OpARM64ADDconst { break } c := auxIntToInt64(x.AuxInt) y := x.Args[0] if !(x.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNWconst, types.TypeFlags) v0.AuxInt = int32ToAuxInt(int32(c)) v0.AddArg(y) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (CMPconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (NE (CMN x y) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64NE, v0) return true } break } // match: (NE (CMPWconst [0] z:(ADD x y)) yes no) // cond: z.Uses == 1 // result: (NE (CMNW x y) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64ADD { break } _ = z.Args[1] z_0 := z.Args[0] z_1 := z.Args[1] for _i0 := 0; _i0 <= 1; _i0, z_0, z_1 = _i0+1, z_1, z_0 { x := z_0 y := z_1 if !(z.Uses == 1) { continue } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64NE, v0) return true } break } // match: (NE (CMP x z:(NEG y)) yes no) // cond: z.Uses == 1 // result: (NE (CMN x y) yes no) for b.Controls[0].Op == OpARM64CMP { v_0 := b.Controls[0] _ = v_0.Args[1] x := v_0.Args[0] z := v_0.Args[1] if z.Op != OpARM64NEG { break } y := z.Args[0] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (CMPW x z:(NEG y)) yes no) // cond: z.Uses == 1 // result: (NE (CMNW x y) yes no) for b.Controls[0].Op == OpARM64CMPW { v_0 := b.Controls[0] _ = v_0.Args[1] x := v_0.Args[0] z := v_0.Args[1] if z.Op != OpARM64NEG { break } y := z.Args[0] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v0.AddArg2(x, y) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (CMPconst [0] x) yes no) // result: (NZ x yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockARM64NZ, x) return true } // match: (NE (CMPWconst [0] x) yes no) // result: (NZW x yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } x := v_0.Args[0] b.resetWithControl(BlockARM64NZW, x) return true } // match: (NE (CMPconst [0] z:(MADD a x y)) yes no) // cond: z.Uses==1 // result: (NE (CMN a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADD { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMN, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (CMPconst [0] z:(MSUB a x y)) yes no) // cond: z.Uses==1 // result: (NE (CMP a (MUL x y)) yes no) for b.Controls[0].Op == OpARM64CMPconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUB { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMP, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MUL, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (CMPWconst [0] z:(MADDW a x y)) yes no) // cond: z.Uses==1 // result: (NE (CMNW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MADDW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMNW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (CMPWconst [0] z:(MSUBW a x y)) yes no) // cond: z.Uses==1 // result: (NE (CMPW a (MULW x y)) yes no) for b.Controls[0].Op == OpARM64CMPWconst { v_0 := b.Controls[0] if auxIntToInt32(v_0.AuxInt) != 0 { break } z := v_0.Args[0] if z.Op != OpARM64MSUBW { break } y := z.Args[2] a := z.Args[0] x := z.Args[1] if !(z.Uses == 1) { break } v0 := b.NewValue0(v_0.Pos, OpARM64CMPW, types.TypeFlags) v1 := b.NewValue0(v_0.Pos, OpARM64MULW, x.Type) v1.AddArg2(x, y) v0.AddArg2(a, v1) b.resetWithControl(BlockARM64NE, v0) return true } // match: (NE (TSTconst [c] x) yes no) // cond: oneBit(c) // result: (TBNZ [int64(ntz64(c))] x yes no) for b.Controls[0].Op == OpARM64TSTconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(oneBit(c)) { break } b.resetWithControl(BlockARM64TBNZ, x) b.AuxInt = int64ToAuxInt(int64(ntz64(c))) return true } // match: (NE (TSTWconst [c] x) yes no) // cond: oneBit(int64(uint32(c))) // result: (TBNZ [int64(ntz64(int64(uint32(c))))] x yes no) for b.Controls[0].Op == OpARM64TSTWconst { v_0 := b.Controls[0] c := auxIntToInt32(v_0.AuxInt) x := v_0.Args[0] if !(oneBit(int64(uint32(c)))) { break } b.resetWithControl(BlockARM64TBNZ, x) b.AuxInt = int64ToAuxInt(int64(ntz64(int64(uint32(c))))) return true } // match: (NE (FlagConstant [fc]) yes no) // cond: fc.ne() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.ne()) { break } b.Reset(BlockFirst) return true } // match: (NE (FlagConstant [fc]) yes no) // cond: !fc.ne() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.ne()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (NE (InvertFlags cmp) yes no) // result: (NE cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64NE, cmp) return true } case BlockARM64NZ: // match: (NZ (Equal cc) yes no) // result: (EQ cc yes no) for b.Controls[0].Op == OpARM64Equal { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64EQ, cc) return true } // match: (NZ (NotEqual cc) yes no) // result: (NE cc yes no) for b.Controls[0].Op == OpARM64NotEqual { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64NE, cc) return true } // match: (NZ (LessThan cc) yes no) // result: (LT cc yes no) for b.Controls[0].Op == OpARM64LessThan { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64LT, cc) return true } // match: (NZ (LessThanU cc) yes no) // result: (ULT cc yes no) for b.Controls[0].Op == OpARM64LessThanU { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64ULT, cc) return true } // match: (NZ (LessEqual cc) yes no) // result: (LE cc yes no) for b.Controls[0].Op == OpARM64LessEqual { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64LE, cc) return true } // match: (NZ (LessEqualU cc) yes no) // result: (ULE cc yes no) for b.Controls[0].Op == OpARM64LessEqualU { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64ULE, cc) return true } // match: (NZ (GreaterThan cc) yes no) // result: (GT cc yes no) for b.Controls[0].Op == OpARM64GreaterThan { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64GT, cc) return true } // match: (NZ (GreaterThanU cc) yes no) // result: (UGT cc yes no) for b.Controls[0].Op == OpARM64GreaterThanU { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64UGT, cc) return true } // match: (NZ (GreaterEqual cc) yes no) // result: (GE cc yes no) for b.Controls[0].Op == OpARM64GreaterEqual { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64GE, cc) return true } // match: (NZ (GreaterEqualU cc) yes no) // result: (UGE cc yes no) for b.Controls[0].Op == OpARM64GreaterEqualU { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64UGE, cc) return true } // match: (NZ (LessThanF cc) yes no) // result: (FLT cc yes no) for b.Controls[0].Op == OpARM64LessThanF { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64FLT, cc) return true } // match: (NZ (LessEqualF cc) yes no) // result: (FLE cc yes no) for b.Controls[0].Op == OpARM64LessEqualF { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64FLE, cc) return true } // match: (NZ (GreaterThanF cc) yes no) // result: (FGT cc yes no) for b.Controls[0].Op == OpARM64GreaterThanF { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64FGT, cc) return true } // match: (NZ (GreaterEqualF cc) yes no) // result: (FGE cc yes no) for b.Controls[0].Op == OpARM64GreaterEqualF { v_0 := b.Controls[0] cc := v_0.Args[0] b.resetWithControl(BlockARM64FGE, cc) return true } // match: (NZ (ANDconst [c] x) yes no) // cond: oneBit(c) // result: (TBNZ [int64(ntz64(c))] x yes no) for b.Controls[0].Op == OpARM64ANDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(oneBit(c)) { break } b.resetWithControl(BlockARM64TBNZ, x) b.AuxInt = int64ToAuxInt(int64(ntz64(c))) return true } // match: (NZ (MOVDconst [0]) yes no) // result: (First no yes) for b.Controls[0].Op == OpARM64MOVDconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (NZ (MOVDconst [c]) yes no) // cond: c != 0 // result: (First yes no) for b.Controls[0].Op == OpARM64MOVDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c != 0) { break } b.Reset(BlockFirst) return true } case BlockARM64NZW: // match: (NZW (ANDconst [c] x) yes no) // cond: oneBit(int64(uint32(c))) // result: (TBNZ [int64(ntz64(int64(uint32(c))))] x yes no) for b.Controls[0].Op == OpARM64ANDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(oneBit(int64(uint32(c)))) { break } b.resetWithControl(BlockARM64TBNZ, x) b.AuxInt = int64ToAuxInt(int64(ntz64(int64(uint32(c))))) return true } // match: (NZW (MOVDconst [c]) yes no) // cond: int32(c) == 0 // result: (First no yes) for b.Controls[0].Op == OpARM64MOVDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(int32(c) == 0) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (NZW (MOVDconst [c]) yes no) // cond: int32(c) != 0 // result: (First yes no) for b.Controls[0].Op == OpARM64MOVDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(int32(c) != 0) { break } b.Reset(BlockFirst) return true } case BlockARM64TBNZ: // match: (TBNZ [0] (Equal cc) yes no) // result: (EQ cc yes no) for b.Controls[0].Op == OpARM64Equal { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64EQ, cc) return true } // match: (TBNZ [0] (NotEqual cc) yes no) // result: (NE cc yes no) for b.Controls[0].Op == OpARM64NotEqual { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64NE, cc) return true } // match: (TBNZ [0] (LessThan cc) yes no) // result: (LT cc yes no) for b.Controls[0].Op == OpARM64LessThan { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64LT, cc) return true } // match: (TBNZ [0] (LessThanU cc) yes no) // result: (ULT cc yes no) for b.Controls[0].Op == OpARM64LessThanU { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64ULT, cc) return true } // match: (TBNZ [0] (LessEqual cc) yes no) // result: (LE cc yes no) for b.Controls[0].Op == OpARM64LessEqual { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64LE, cc) return true } // match: (TBNZ [0] (LessEqualU cc) yes no) // result: (ULE cc yes no) for b.Controls[0].Op == OpARM64LessEqualU { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64ULE, cc) return true } // match: (TBNZ [0] (GreaterThan cc) yes no) // result: (GT cc yes no) for b.Controls[0].Op == OpARM64GreaterThan { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64GT, cc) return true } // match: (TBNZ [0] (GreaterThanU cc) yes no) // result: (UGT cc yes no) for b.Controls[0].Op == OpARM64GreaterThanU { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64UGT, cc) return true } // match: (TBNZ [0] (GreaterEqual cc) yes no) // result: (GE cc yes no) for b.Controls[0].Op == OpARM64GreaterEqual { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64GE, cc) return true } // match: (TBNZ [0] (GreaterEqualU cc) yes no) // result: (UGE cc yes no) for b.Controls[0].Op == OpARM64GreaterEqualU { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64UGE, cc) return true } // match: (TBNZ [0] (LessThanF cc) yes no) // result: (FLT cc yes no) for b.Controls[0].Op == OpARM64LessThanF { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64FLT, cc) return true } // match: (TBNZ [0] (LessEqualF cc) yes no) // result: (FLE cc yes no) for b.Controls[0].Op == OpARM64LessEqualF { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64FLE, cc) return true } // match: (TBNZ [0] (GreaterThanF cc) yes no) // result: (FGT cc yes no) for b.Controls[0].Op == OpARM64GreaterThanF { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64FGT, cc) return true } // match: (TBNZ [0] (GreaterEqualF cc) yes no) // result: (FGE cc yes no) for b.Controls[0].Op == OpARM64GreaterEqualF { v_0 := b.Controls[0] cc := v_0.Args[0] if auxIntToInt64(b.AuxInt) != 0 { break } b.resetWithControl(BlockARM64FGE, cc) return true } case BlockARM64UGE: // match: (UGE (FlagConstant [fc]) yes no) // cond: fc.uge() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.uge()) { break } b.Reset(BlockFirst) return true } // match: (UGE (FlagConstant [fc]) yes no) // cond: !fc.uge() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.uge()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (UGE (InvertFlags cmp) yes no) // result: (ULE cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64ULE, cmp) return true } case BlockARM64UGT: // match: (UGT (FlagConstant [fc]) yes no) // cond: fc.ugt() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.ugt()) { break } b.Reset(BlockFirst) return true } // match: (UGT (FlagConstant [fc]) yes no) // cond: !fc.ugt() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.ugt()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (UGT (InvertFlags cmp) yes no) // result: (ULT cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64ULT, cmp) return true } case BlockARM64ULE: // match: (ULE (FlagConstant [fc]) yes no) // cond: fc.ule() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.ule()) { break } b.Reset(BlockFirst) return true } // match: (ULE (FlagConstant [fc]) yes no) // cond: !fc.ule() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.ule()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (ULE (InvertFlags cmp) yes no) // result: (UGE cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64UGE, cmp) return true } case BlockARM64ULT: // match: (ULT (FlagConstant [fc]) yes no) // cond: fc.ult() // result: (First yes no) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(fc.ult()) { break } b.Reset(BlockFirst) return true } // match: (ULT (FlagConstant [fc]) yes no) // cond: !fc.ult() // result: (First no yes) for b.Controls[0].Op == OpARM64FlagConstant { v_0 := b.Controls[0] fc := auxIntToFlagConstant(v_0.AuxInt) if !(!fc.ult()) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } // match: (ULT (InvertFlags cmp) yes no) // result: (UGT cmp yes no) for b.Controls[0].Op == OpARM64InvertFlags { v_0 := b.Controls[0] cmp := v_0.Args[0] b.resetWithControl(BlockARM64UGT, cmp) return true } case BlockARM64Z: // match: (Z (ANDconst [c] x) yes no) // cond: oneBit(c) // result: (TBZ [int64(ntz64(c))] x yes no) for b.Controls[0].Op == OpARM64ANDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(oneBit(c)) { break } b.resetWithControl(BlockARM64TBZ, x) b.AuxInt = int64ToAuxInt(int64(ntz64(c))) return true } // match: (Z (MOVDconst [0]) yes no) // result: (First yes no) for b.Controls[0].Op == OpARM64MOVDconst { v_0 := b.Controls[0] if auxIntToInt64(v_0.AuxInt) != 0 { break } b.Reset(BlockFirst) return true } // match: (Z (MOVDconst [c]) yes no) // cond: c != 0 // result: (First no yes) for b.Controls[0].Op == OpARM64MOVDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(c != 0) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } case BlockARM64ZW: // match: (ZW (ANDconst [c] x) yes no) // cond: oneBit(int64(uint32(c))) // result: (TBZ [int64(ntz64(int64(uint32(c))))] x yes no) for b.Controls[0].Op == OpARM64ANDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) x := v_0.Args[0] if !(oneBit(int64(uint32(c)))) { break } b.resetWithControl(BlockARM64TBZ, x) b.AuxInt = int64ToAuxInt(int64(ntz64(int64(uint32(c))))) return true } // match: (ZW (MOVDconst [c]) yes no) // cond: int32(c) == 0 // result: (First yes no) for b.Controls[0].Op == OpARM64MOVDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(int32(c) == 0) { break } b.Reset(BlockFirst) return true } // match: (ZW (MOVDconst [c]) yes no) // cond: int32(c) != 0 // result: (First no yes) for b.Controls[0].Op == OpARM64MOVDconst { v_0 := b.Controls[0] c := auxIntToInt64(v_0.AuxInt) if !(int32(c) != 0) { break } b.Reset(BlockFirst) b.swapSuccessors() return true } } return false }