// Copyright 2016 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. (Add(Ptr|64|32|16|8) ...) => (ADD ...) (Add(32F|64F) ...) => (FADD(S|D) ...) (Sub(Ptr|64|32|16|8) ...) => (SUB ...) (Sub(32F|64F) ...) => (FSUB(S|D) ...) (Mul64 ...) => (MUL ...) (Mul(32|16|8) ...) => (MULW ...) (Mul(32F|64F) ...) => (FMUL(S|D) ...) (Hmul64 ...) => (MULH ...) (Hmul64u ...) => (UMULH ...) (Hmul32 x y) => (SRAconst (MULL x y) [32]) (Hmul32u x y) => (SRAconst (UMULL x y) [32]) (Mul64uhilo ...) => (LoweredMuluhilo ...) (Div64 [false] x y) => (DIV x y) (Div64u ...) => (UDIV ...) (Div32 [false] x y) => (DIVW x y) (Div32u ...) => (UDIVW ...) (Div16 [false] x y) => (DIVW (SignExt16to32 x) (SignExt16to32 y)) (Div16u x y) => (UDIVW (ZeroExt16to32 x) (ZeroExt16to32 y)) (Div8 x y) => (DIVW (SignExt8to32 x) (SignExt8to32 y)) (Div8u x y) => (UDIVW (ZeroExt8to32 x) (ZeroExt8to32 y)) (Div32F ...) => (FDIVS ...) (Div64F ...) => (FDIVD ...) (Mod64 x y) => (MOD x y) (Mod64u ...) => (UMOD ...) (Mod32 x y) => (MODW x y) (Mod32u ...) => (UMODW ...) (Mod16 x y) => (MODW (SignExt16to32 x) (SignExt16to32 y)) (Mod16u x y) => (UMODW (ZeroExt16to32 x) (ZeroExt16to32 y)) (Mod8 x y) => (MODW (SignExt8to32 x) (SignExt8to32 y)) (Mod8u x y) => (UMODW (ZeroExt8to32 x) (ZeroExt8to32 y)) // (x + y) / 2 with x>=y => (x - y) / 2 + y (Avg64u x y) => (ADD (SRLconst (SUB x y) [1]) y) (And(64|32|16|8) ...) => (AND ...) (Or(64|32|16|8) ...) => (OR ...) (Xor(64|32|16|8) ...) => (XOR ...) // unary ops (Neg(64|32|16|8) ...) => (NEG ...) (Neg(32F|64F) ...) => (FNEG(S|D) ...) (Com(64|32|16|8) ...) => (MVN ...) // math package intrinsics (Abs ...) => (FABSD ...) (Sqrt ...) => (FSQRTD ...) (Ceil ...) => (FRINTPD ...) (Floor ...) => (FRINTMD ...) (Round ...) => (FRINTAD ...) (RoundToEven ...) => (FRINTND ...) (Trunc ...) => (FRINTZD ...) (FMA x y z) => (FMADDD z x y) (Sqrt32 ...) => (FSQRTS ...) // lowering rotates (RotateLeft8 x (MOVDconst [c])) => (Or8 (Lsh8x64 x (MOVDconst [c&7])) (Rsh8Ux64 x (MOVDconst [-c&7]))) (RotateLeft16 x (MOVDconst [c])) => (Or16 (Lsh16x64 x (MOVDconst [c&15])) (Rsh16Ux64 x (MOVDconst [-c&15]))) (RotateLeft32 x y) => (RORW x (NEG y)) (RotateLeft64 x y) => (ROR x (NEG y)) (Ctz(64|32|16|8)NonZero ...) => (Ctz(64|32|32|32) ...) (Ctz64 x) => (CLZ (RBIT x)) (Ctz32 x) => (CLZW (RBITW x)) (Ctz16 x) => (CLZW (RBITW (ORconst [0x10000] x))) (Ctz8 x) => (CLZW (RBITW (ORconst [0x100] x))) (PopCount64 x) => (FMOVDfpgp (VUADDLV (VCNT (FMOVDgpfp x)))) (PopCount32 x) => (FMOVDfpgp (VUADDLV (VCNT (FMOVDgpfp (ZeroExt32to64 x))))) (PopCount16 x) => (FMOVDfpgp (VUADDLV (VCNT (FMOVDgpfp (ZeroExt16to64 x))))) // Load args directly into the register class where it will be used. (FMOVDgpfp (Arg [off] {sym})) => @b.Func.Entry (Arg [off] {sym}) (FMOVDfpgp (Arg [off] {sym})) => @b.Func.Entry (Arg [off] {sym}) // Similarly for stores, if we see a store after FPR <=> GPR move, then redirect store to use the other register set. (MOVDstore [off] {sym} ptr (FMOVDfpgp val) mem) => (FMOVDstore [off] {sym} ptr val mem) (FMOVDstore [off] {sym} ptr (FMOVDgpfp val) mem) => (MOVDstore [off] {sym} ptr val mem) (MOVWstore [off] {sym} ptr (FMOVSfpgp val) mem) => (FMOVSstore [off] {sym} ptr val mem) (FMOVSstore [off] {sym} ptr (FMOVSgpfp val) mem) => (MOVWstore [off] {sym} ptr val mem) // float <=> int register moves, with no conversion. // These come up when compiling math.{Float64bits, Float64frombits, Float32bits, Float32frombits}. (MOVDload [off] {sym} ptr (FMOVDstore [off] {sym} ptr val _)) => (FMOVDfpgp val) (FMOVDload [off] {sym} ptr (MOVDstore [off] {sym} ptr val _)) => (FMOVDgpfp val) (MOVWUload [off] {sym} ptr (FMOVSstore [off] {sym} ptr val _)) => (FMOVSfpgp val) (FMOVSload [off] {sym} ptr (MOVWstore [off] {sym} ptr val _)) => (FMOVSgpfp val) (BitLen64 x) => (SUB (MOVDconst [64]) (CLZ x)) (BitLen32 x) => (SUB (MOVDconst [32]) (CLZW x)) (Bswap64 ...) => (REV ...) (Bswap32 ...) => (REVW ...) (BitRev64 ...) => (RBIT ...) (BitRev32 ...) => (RBITW ...) (BitRev16 x) => (SRLconst [48] (RBIT x)) (BitRev8 x) => (SRLconst [56] (RBIT x)) // In fact, UMOD will be translated into UREM instruction, and UREM is originally translated into // UDIV and MSUB instructions. But if there is already an identical UDIV instruction just before or // after UREM (case like quo, rem := z/y, z%y), then the second UDIV instruction becomes redundant. // The purpose of this rule is to have this extra UDIV instruction removed in CSE pass. (UMOD x y) => (MSUB x y (UDIV x y)) (UMODW x y) => (MSUBW x y (UDIVW x y)) // 64-bit addition with carry. (Select0 (Add64carry x y c)) => (Select0 (ADCSflags x y (Select1 (ADDSconstflags [-1] c)))) (Select1 (Add64carry x y c)) => (ADCzerocarry (Select1 (ADCSflags x y (Select1 (ADDSconstflags [-1] c))))) // 64-bit subtraction with borrowing. (Select0 (Sub64borrow x y bo)) => (Select0 (SBCSflags x y (Select1 (NEGSflags bo)))) (Select1 (Sub64borrow x y bo)) => (NEG (NGCzerocarry (Select1 (SBCSflags x y (Select1 (NEGSflags bo)))))) // boolean ops -- booleans are represented with 0=false, 1=true (AndB ...) => (AND ...) (OrB ...) => (OR ...) (EqB x y) => (XOR (MOVDconst [1]) (XOR x y)) (NeqB ...) => (XOR ...) (Not x) => (XOR (MOVDconst [1]) x) // shifts // hardware instruction uses only the low 6 bits of the shift // we compare to 64 to ensure Go semantics for large shifts // Rules about rotates with non-const shift are based on the following rules, // if the following rules change, please also modify the rules based on them. (Lsh64x64 x y) => (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] y)) (Lsh64x32 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt32to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) (Lsh64x16 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt16to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) (Lsh64x8 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt8to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) (Lsh32x64 x y) => (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] y)) (Lsh32x32 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt32to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) (Lsh32x16 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt16to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) (Lsh32x8 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt8to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) (Lsh16x64 x y) => (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] y)) (Lsh16x32 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt32to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) (Lsh16x16 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt16to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) (Lsh16x8 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt8to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) (Lsh8x64 x y) => (CSEL [OpARM64LessThanU] (SLL x y) (Const64 [0]) (CMPconst [64] y)) (Lsh8x32 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt32to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) (Lsh8x16 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt16to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) (Lsh8x8 x y) => (CSEL [OpARM64LessThanU] (SLL x (ZeroExt8to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) (Rsh64Ux64 x y) => (CSEL [OpARM64LessThanU] (SRL x y) (Const64 [0]) (CMPconst [64] y)) (Rsh64Ux32 x y) => (CSEL [OpARM64LessThanU] (SRL x (ZeroExt32to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) (Rsh64Ux16 x y) => (CSEL [OpARM64LessThanU] (SRL x (ZeroExt16to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) (Rsh64Ux8 x y) => (CSEL [OpARM64LessThanU] (SRL x (ZeroExt8to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) (Rsh32Ux64 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt32to64 x) y) (Const64 [0]) (CMPconst [64] y)) (Rsh32Ux32 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt32to64 x) (ZeroExt32to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) (Rsh32Ux16 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt32to64 x) (ZeroExt16to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) (Rsh32Ux8 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt32to64 x) (ZeroExt8to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) (Rsh16Ux64 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt16to64 x) y) (Const64 [0]) (CMPconst [64] y)) (Rsh16Ux32 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt16to64 x) (ZeroExt32to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) (Rsh16Ux16 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt16to64 x) (ZeroExt16to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) (Rsh16Ux8 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt16to64 x) (ZeroExt8to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) (Rsh8Ux64 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt8to64 x) y) (Const64 [0]) (CMPconst [64] y)) (Rsh8Ux32 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt8to64 x) (ZeroExt32to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt32to64 y))) (Rsh8Ux16 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt8to64 x) (ZeroExt16to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt16to64 y))) (Rsh8Ux8 x y) => (CSEL [OpARM64LessThanU] (SRL (ZeroExt8to64 x) (ZeroExt8to64 y)) (Const64 [0]) (CMPconst [64] (ZeroExt8to64 y))) (Rsh64x64 x y) => (SRA x (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] y))) (Rsh64x32 x y) => (SRA x (CSEL [OpARM64LessThanU] (ZeroExt32to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt32to64 y)))) (Rsh64x16 x y) => (SRA x (CSEL [OpARM64LessThanU] (ZeroExt16to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt16to64 y)))) (Rsh64x8 x y) => (SRA x (CSEL [OpARM64LessThanU] (ZeroExt8to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt8to64 y)))) (Rsh32x64 x y) => (SRA (SignExt32to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] y))) (Rsh32x32 x y) => (SRA (SignExt32to64 x) (CSEL [OpARM64LessThanU] (ZeroExt32to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt32to64 y)))) (Rsh32x16 x y) => (SRA (SignExt32to64 x) (CSEL [OpARM64LessThanU] (ZeroExt16to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt16to64 y)))) (Rsh32x8 x y) => (SRA (SignExt32to64 x) (CSEL [OpARM64LessThanU] (ZeroExt8to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt8to64 y)))) (Rsh16x64 x y) => (SRA (SignExt16to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] y))) (Rsh16x32 x y) => (SRA (SignExt16to64 x) (CSEL [OpARM64LessThanU] (ZeroExt32to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt32to64 y)))) (Rsh16x16 x y) => (SRA (SignExt16to64 x) (CSEL [OpARM64LessThanU] (ZeroExt16to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt16to64 y)))) (Rsh16x8 x y) => (SRA (SignExt16to64 x) (CSEL [OpARM64LessThanU] (ZeroExt8to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt8to64 y)))) (Rsh8x64 x y) => (SRA (SignExt8to64 x) (CSEL [OpARM64LessThanU] y (Const64 [63]) (CMPconst [64] y))) (Rsh8x32 x y) => (SRA (SignExt8to64 x) (CSEL [OpARM64LessThanU] (ZeroExt32to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt32to64 y)))) (Rsh8x16 x y) => (SRA (SignExt8to64 x) (CSEL [OpARM64LessThanU] (ZeroExt16to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt16to64 y)))) (Rsh8x8 x y) => (SRA (SignExt8to64 x) (CSEL [OpARM64LessThanU] (ZeroExt8to64 y) (Const64 [63]) (CMPconst [64] (ZeroExt8to64 y)))) // constants (Const(64|32|16|8) [val]) => (MOVDconst [int64(val)]) (Const(32F|64F) [val]) => (FMOV(S|D)const [float64(val)]) (ConstNil) => (MOVDconst [0]) (ConstBool [t]) => (MOVDconst [b2i(t)]) (Slicemask x) => (SRAconst (NEG x) [63]) // truncations // Because we ignore high parts of registers, truncates are just copies. (Trunc16to8 ...) => (Copy ...) (Trunc32to8 ...) => (Copy ...) (Trunc32to16 ...) => (Copy ...) (Trunc64to8 ...) => (Copy ...) (Trunc64to16 ...) => (Copy ...) (Trunc64to32 ...) => (Copy ...) // Zero-/Sign-extensions (ZeroExt8to16 ...) => (MOVBUreg ...) (ZeroExt8to32 ...) => (MOVBUreg ...) (ZeroExt16to32 ...) => (MOVHUreg ...) (ZeroExt8to64 ...) => (MOVBUreg ...) (ZeroExt16to64 ...) => (MOVHUreg ...) (ZeroExt32to64 ...) => (MOVWUreg ...) (SignExt8to16 ...) => (MOVBreg ...) (SignExt8to32 ...) => (MOVBreg ...) (SignExt16to32 ...) => (MOVHreg ...) (SignExt8to64 ...) => (MOVBreg ...) (SignExt16to64 ...) => (MOVHreg ...) (SignExt32to64 ...) => (MOVWreg ...) // float <=> int conversion (Cvt32to32F ...) => (SCVTFWS ...) (Cvt32to64F ...) => (SCVTFWD ...) (Cvt64to32F ...) => (SCVTFS ...) (Cvt64to64F ...) => (SCVTFD ...) (Cvt32Uto32F ...) => (UCVTFWS ...) (Cvt32Uto64F ...) => (UCVTFWD ...) (Cvt64Uto32F ...) => (UCVTFS ...) (Cvt64Uto64F ...) => (UCVTFD ...) (Cvt32Fto32 ...) => (FCVTZSSW ...) (Cvt64Fto32 ...) => (FCVTZSDW ...) (Cvt32Fto64 ...) => (FCVTZSS ...) (Cvt64Fto64 ...) => (FCVTZSD ...) (Cvt32Fto32U ...) => (FCVTZUSW ...) (Cvt64Fto32U ...) => (FCVTZUDW ...) (Cvt32Fto64U ...) => (FCVTZUS ...) (Cvt64Fto64U ...) => (FCVTZUD ...) (Cvt32Fto64F ...) => (FCVTSD ...) (Cvt64Fto32F ...) => (FCVTDS ...) (CvtBoolToUint8 ...) => (Copy ...) (Round32F ...) => (LoweredRound32F ...) (Round64F ...) => (LoweredRound64F ...) // comparisons (Eq8 x y) => (Equal (CMPW (ZeroExt8to32 x) (ZeroExt8to32 y))) (Eq16 x y) => (Equal (CMPW (ZeroExt16to32 x) (ZeroExt16to32 y))) (Eq32 x y) => (Equal (CMPW x y)) (Eq64 x y) => (Equal (CMP x y)) (EqPtr x y) => (Equal (CMP x y)) (Eq32F x y) => (Equal (FCMPS x y)) (Eq64F x y) => (Equal (FCMPD x y)) (Neq8 x y) => (NotEqual (CMPW (ZeroExt8to32 x) (ZeroExt8to32 y))) (Neq16 x y) => (NotEqual (CMPW (ZeroExt16to32 x) (ZeroExt16to32 y))) (Neq32 x y) => (NotEqual (CMPW x y)) (Neq64 x y) => (NotEqual (CMP x y)) (NeqPtr x y) => (NotEqual (CMP x y)) (Neq32F x y) => (NotEqual (FCMPS x y)) (Neq64F x y) => (NotEqual (FCMPD x y)) (Less8 x y) => (LessThan (CMPW (SignExt8to32 x) (SignExt8to32 y))) (Less16 x y) => (LessThan (CMPW (SignExt16to32 x) (SignExt16to32 y))) (Less32 x y) => (LessThan (CMPW x y)) (Less64 x y) => (LessThan (CMP x y)) // Set condition flags for floating-point comparisons "x < y" // and "x <= y". Because if either or both of the operands are // NaNs, all three of (x < y), (x == y) and (x > y) are false, // and ARM Manual says FCMP instruction sets PSTATE. // of this case to (0, 0, 1, 1). (Less32F x y) => (LessThanF (FCMPS x y)) (Less64F x y) => (LessThanF (FCMPD x y)) // For an unsigned integer x, the following rules are useful when combining branch // 0 < x => x != 0 // x <= 0 => x == 0 // x < 1 => x == 0 // 1 <= x => x != 0 (Less(8U|16U|32U|64U) zero:(MOVDconst [0]) x) => (Neq(8|16|32|64) zero x) (Leq(8U|16U|32U|64U) x zero:(MOVDconst [0])) => (Eq(8|16|32|64) x zero) (Less(8U|16U|32U|64U) x (MOVDconst [1])) => (Eq(8|16|32|64) x (MOVDconst [0])) (Leq(8U|16U|32U|64U) (MOVDconst [1]) x) => (Neq(8|16|32|64) (MOVDconst [0]) x) (Less8U x y) => (LessThanU (CMPW (ZeroExt8to32 x) (ZeroExt8to32 y))) (Less16U x y) => (LessThanU (CMPW (ZeroExt16to32 x) (ZeroExt16to32 y))) (Less32U x y) => (LessThanU (CMPW x y)) (Less64U x y) => (LessThanU (CMP x y)) (Leq8 x y) => (LessEqual (CMPW (SignExt8to32 x) (SignExt8to32 y))) (Leq16 x y) => (LessEqual (CMPW (SignExt16to32 x) (SignExt16to32 y))) (Leq32 x y) => (LessEqual (CMPW x y)) (Leq64 x y) => (LessEqual (CMP x y)) // Refer to the comments for op Less64F above. (Leq32F x y) => (LessEqualF (FCMPS x y)) (Leq64F x y) => (LessEqualF (FCMPD x y)) (Leq8U x y) => (LessEqualU (CMPW (ZeroExt8to32 x) (ZeroExt8to32 y))) (Leq16U x y) => (LessEqualU (CMPW (ZeroExt16to32 x) (ZeroExt16to32 y))) (Leq32U x y) => (LessEqualU (CMPW x y)) (Leq64U x y) => (LessEqualU (CMP x y)) // Optimize comparison between a floating-point value and 0.0 with "FCMP $(0.0), Fn" (FCMPS x (FMOVSconst [0])) => (FCMPS0 x) (FCMPS (FMOVSconst [0]) x) => (InvertFlags (FCMPS0 x)) (FCMPD x (FMOVDconst [0])) => (FCMPD0 x) (FCMPD (FMOVDconst [0]) x) => (InvertFlags (FCMPD0 x)) // CSEL needs a flag-generating argument. Synthesize a CMPW if necessary. (CondSelect x y boolval) && flagArg(boolval) != nil => (CSEL [boolval.Op] x y flagArg(boolval)) (CondSelect x y boolval) && flagArg(boolval) == nil => (CSEL [OpARM64NotEqual] x y (CMPWconst [0] boolval)) (OffPtr [off] ptr:(SP)) && is32Bit(off) => (MOVDaddr [int32(off)] ptr) (OffPtr [off] ptr) => (ADDconst [off] ptr) (Addr {sym} base) => (MOVDaddr {sym} base) (LocalAddr {sym} base _) => (MOVDaddr {sym} base) // loads (Load ptr mem) && t.IsBoolean() => (MOVBUload ptr mem) (Load ptr mem) && (is8BitInt(t) && isSigned(t)) => (MOVBload ptr mem) (Load ptr mem) && (is8BitInt(t) && !isSigned(t)) => (MOVBUload ptr mem) (Load ptr mem) && (is16BitInt(t) && isSigned(t)) => (MOVHload ptr mem) (Load ptr mem) && (is16BitInt(t) && !isSigned(t)) => (MOVHUload ptr mem) (Load ptr mem) && (is32BitInt(t) && isSigned(t)) => (MOVWload ptr mem) (Load ptr mem) && (is32BitInt(t) && !isSigned(t)) => (MOVWUload ptr mem) (Load ptr mem) && (is64BitInt(t) || isPtr(t)) => (MOVDload ptr mem) (Load ptr mem) && is32BitFloat(t) => (FMOVSload ptr mem) (Load ptr mem) && is64BitFloat(t) => (FMOVDload ptr mem) // stores (Store {t} ptr val mem) && t.Size() == 1 => (MOVBstore ptr val mem) (Store {t} ptr val mem) && t.Size() == 2 => (MOVHstore ptr val mem) (Store {t} ptr val mem) && t.Size() == 4 && !is32BitFloat(val.Type) => (MOVWstore ptr val mem) (Store {t} ptr val mem) && t.Size() == 8 && !is64BitFloat(val.Type) => (MOVDstore ptr val mem) (Store {t} ptr val mem) && t.Size() == 4 && is32BitFloat(val.Type) => (FMOVSstore ptr val mem) (Store {t} ptr val mem) && t.Size() == 8 && is64BitFloat(val.Type) => (FMOVDstore ptr val mem) // zeroing (Zero [0] _ mem) => mem (Zero [1] ptr mem) => (MOVBstore ptr (MOVDconst [0]) mem) (Zero [2] ptr mem) => (MOVHstore ptr (MOVDconst [0]) mem) (Zero [4] ptr mem) => (MOVWstore ptr (MOVDconst [0]) mem) (Zero [8] ptr mem) => (MOVDstore ptr (MOVDconst [0]) mem) (Zero [3] ptr mem) => (MOVBstore [2] ptr (MOVDconst [0]) (MOVHstore ptr (MOVDconst [0]) mem)) (Zero [5] ptr mem) => (MOVBstore [4] ptr (MOVDconst [0]) (MOVWstore ptr (MOVDconst [0]) mem)) (Zero [6] ptr mem) => (MOVHstore [4] ptr (MOVDconst [0]) (MOVWstore ptr (MOVDconst [0]) mem)) (Zero [7] ptr mem) => (MOVBstore [6] ptr (MOVDconst [0]) (MOVHstore [4] ptr (MOVDconst [0]) (MOVWstore ptr (MOVDconst [0]) mem))) (Zero [9] ptr mem) => (MOVBstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) (Zero [10] ptr mem) => (MOVHstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) (Zero [11] ptr mem) => (MOVBstore [10] ptr (MOVDconst [0]) (MOVHstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem))) (Zero [12] ptr mem) => (MOVWstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)) (Zero [13] ptr mem) => (MOVBstore [12] ptr (MOVDconst [0]) (MOVWstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem))) (Zero [14] ptr mem) => (MOVHstore [12] ptr (MOVDconst [0]) (MOVWstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem))) (Zero [15] ptr mem) => (MOVBstore [14] ptr (MOVDconst [0]) (MOVHstore [12] ptr (MOVDconst [0]) (MOVWstore [8] ptr (MOVDconst [0]) (MOVDstore ptr (MOVDconst [0]) mem)))) (Zero [16] ptr mem) => (STP [0] ptr (MOVDconst [0]) (MOVDconst [0]) mem) (Zero [32] ptr mem) => (STP [16] ptr (MOVDconst [0]) (MOVDconst [0]) (STP [0] ptr (MOVDconst [0]) (MOVDconst [0]) mem)) (Zero [48] ptr mem) => (STP [32] ptr (MOVDconst [0]) (MOVDconst [0]) (STP [16] ptr (MOVDconst [0]) (MOVDconst [0]) (STP [0] ptr (MOVDconst [0]) (MOVDconst [0]) mem))) (Zero [64] ptr mem) => (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)))) // strip off fractional word zeroing (Zero [s] ptr mem) && s%16 != 0 && s%16 <= 8 && s > 16 => (Zero [8] (OffPtr ptr [s-8]) (Zero [s-s%16] ptr mem)) (Zero [s] ptr mem) && s%16 != 0 && s%16 > 8 && s > 16 => (Zero [16] (OffPtr ptr [s-16]) (Zero [s-s%16] ptr mem)) // medium zeroing uses a duff device // 4, 16, and 64 are magic constants, see runtime/mkduff.go (Zero [s] ptr mem) && s%16 == 0 && s > 64 && s <= 16*64 && !config.noDuffDevice => (DUFFZERO [4 * (64 - s/16)] ptr mem) // large zeroing uses a loop (Zero [s] ptr mem) && s%16 == 0 && (s > 16*64 || config.noDuffDevice) => (LoweredZero ptr (ADDconst [s-16] ptr) mem) // moves (Move [0] _ _ mem) => mem (Move [1] dst src mem) => (MOVBstore dst (MOVBUload src mem) mem) (Move [2] dst src mem) => (MOVHstore dst (MOVHUload src mem) mem) (Move [4] dst src mem) => (MOVWstore dst (MOVWUload src mem) mem) (Move [8] dst src mem) => (MOVDstore dst (MOVDload src mem) mem) (Move [3] dst src mem) => (MOVBstore [2] dst (MOVBUload [2] src mem) (MOVHstore dst (MOVHUload src mem) mem)) (Move [5] dst src mem) => (MOVBstore [4] dst (MOVBUload [4] src mem) (MOVWstore dst (MOVWUload src mem) mem)) (Move [6] dst src mem) => (MOVHstore [4] dst (MOVHUload [4] src mem) (MOVWstore dst (MOVWUload src mem) mem)) (Move [7] dst src mem) => (MOVBstore [6] dst (MOVBUload [6] src mem) (MOVHstore [4] dst (MOVHUload [4] src mem) (MOVWstore dst (MOVWUload src mem) mem))) (Move [12] dst src mem) => (MOVWstore [8] dst (MOVWUload [8] src mem) (MOVDstore dst (MOVDload src mem) mem)) (Move [16] dst src mem) => (MOVDstore [8] dst (MOVDload [8] src mem) (MOVDstore dst (MOVDload src mem) mem)) (Move [24] dst src mem) => (MOVDstore [16] dst (MOVDload [16] src mem) (MOVDstore [8] dst (MOVDload [8] src mem) (MOVDstore dst (MOVDload src mem) mem))) // strip off fractional word move (Move [s] dst src mem) && s%8 != 0 && s > 8 => (Move [s%8] (OffPtr dst [s-s%8]) (OffPtr src [s-s%8]) (Move [s-s%8] dst src mem)) // medium move uses a duff device (Move [s] dst src mem) && s > 32 && s <= 16*64 && s%16 == 8 && !config.noDuffDevice && logLargeCopy(v, s) => (MOVDstore [int32(s-8)] dst (MOVDload [int32(s-8)] src mem) (DUFFCOPY [8*(64-(s-8)/16)] dst src mem)) (Move [s] dst src mem) && s > 32 && s <= 16*64 && s%16 == 0 && !config.noDuffDevice && logLargeCopy(v, s) => (DUFFCOPY [8 * (64 - s/16)] dst src mem) // 8 is the number of bytes to encode: // // LDP.P 16(R16), (R26, R27) // STP.P (R26, R27), 16(R17) // // 64 is number of these blocks. See runtime/duff_arm64.s:duffcopy // large move uses a loop (Move [s] dst src mem) && s > 24 && s%8 == 0 && logLargeCopy(v, s) => (LoweredMove dst src (ADDconst src [s-8]) mem) // calls (StaticCall ...) => (CALLstatic ...) (ClosureCall ...) => (CALLclosure ...) (InterCall ...) => (CALLinter ...) (TailCall ...) => (CALLtail ...) // checks (NilCheck ...) => (LoweredNilCheck ...) (IsNonNil ptr) => (NotEqual (CMPconst [0] ptr)) (IsInBounds idx len) => (LessThanU (CMP idx len)) (IsSliceInBounds idx len) => (LessEqualU (CMP idx len)) // pseudo-ops (GetClosurePtr ...) => (LoweredGetClosurePtr ...) (GetCallerSP ...) => (LoweredGetCallerSP ...) (GetCallerPC ...) => (LoweredGetCallerPC ...) // Absorb pseudo-ops into blocks. (If (Equal cc) yes no) => (EQ cc yes no) (If (NotEqual cc) yes no) => (NE cc yes no) (If (LessThan cc) yes no) => (LT cc yes no) (If (LessThanU cc) yes no) => (ULT cc yes no) (If (LessEqual cc) yes no) => (LE cc yes no) (If (LessEqualU cc) yes no) => (ULE cc yes no) (If (GreaterThan cc) yes no) => (GT cc yes no) (If (GreaterThanU cc) yes no) => (UGT cc yes no) (If (GreaterEqual cc) yes no) => (GE cc yes no) (If (GreaterEqualU cc) yes no) => (UGE cc yes no) (If (LessThanF cc) yes no) => (FLT cc yes no) (If (LessEqualF cc) yes no) => (FLE cc yes no) (If (GreaterThanF cc) yes no) => (FGT cc yes no) (If (GreaterEqualF cc) yes no) => (FGE cc yes no) (If cond yes no) => (NZ cond yes no) // atomic intrinsics // Note: these ops do not accept offset. (AtomicLoad8 ...) => (LDARB ...) (AtomicLoad32 ...) => (LDARW ...) (AtomicLoad64 ...) => (LDAR ...) (AtomicLoadPtr ...) => (LDAR ...) (AtomicStore8 ...) => (STLRB ...) (AtomicStore32 ...) => (STLRW ...) (AtomicStore64 ...) => (STLR ...) (AtomicStorePtrNoWB ...) => (STLR ...) (AtomicExchange(32|64) ...) => (LoweredAtomicExchange(32|64) ...) (AtomicAdd(32|64) ...) => (LoweredAtomicAdd(32|64) ...) (AtomicCompareAndSwap(32|64) ...) => (LoweredAtomicCas(32|64) ...) (AtomicAdd(32|64)Variant ...) => (LoweredAtomicAdd(32|64)Variant ...) (AtomicExchange(32|64)Variant ...) => (LoweredAtomicExchange(32|64)Variant ...) (AtomicCompareAndSwap(32|64)Variant ...) => (LoweredAtomicCas(32|64)Variant ...) // Currently the updated value is not used, but we need a register to temporarily hold it. (AtomicAnd8 ptr val mem) => (Select1 (LoweredAtomicAnd8 ptr val mem)) (AtomicAnd32 ptr val mem) => (Select1 (LoweredAtomicAnd32 ptr val mem)) (AtomicOr8 ptr val mem) => (Select1 (LoweredAtomicOr8 ptr val mem)) (AtomicOr32 ptr val mem) => (Select1 (LoweredAtomicOr32 ptr val mem)) (AtomicAnd8Variant ptr val mem) => (Select1 (LoweredAtomicAnd8Variant ptr val mem)) (AtomicAnd32Variant ptr val mem) => (Select1 (LoweredAtomicAnd32Variant ptr val mem)) (AtomicOr8Variant ptr val mem) => (Select1 (LoweredAtomicOr8Variant ptr val mem)) (AtomicOr32Variant ptr val mem) => (Select1 (LoweredAtomicOr32Variant ptr val mem)) // Write barrier. (WB ...) => (LoweredWB ...) // Publication barrier (0xe is ST option) (PubBarrier mem) => (DMB [0xe] mem) (PanicBounds [kind] x y mem) && boundsABI(kind) == 0 => (LoweredPanicBoundsA [kind] x y mem) (PanicBounds [kind] x y mem) && boundsABI(kind) == 1 => (LoweredPanicBoundsB [kind] x y mem) (PanicBounds [kind] x y mem) && boundsABI(kind) == 2 => (LoweredPanicBoundsC [kind] x y mem) // Optimizations // Absorb boolean tests into block (NZ (Equal cc) yes no) => (EQ cc yes no) (NZ (NotEqual cc) yes no) => (NE cc yes no) (NZ (LessThan cc) yes no) => (LT cc yes no) (NZ (LessThanU cc) yes no) => (ULT cc yes no) (NZ (LessEqual cc) yes no) => (LE cc yes no) (NZ (LessEqualU cc) yes no) => (ULE cc yes no) (NZ (GreaterThan cc) yes no) => (GT cc yes no) (NZ (GreaterThanU cc) yes no) => (UGT cc yes no) (NZ (GreaterEqual cc) yes no) => (GE cc yes no) (NZ (GreaterEqualU cc) yes no) => (UGE cc yes no) (NZ (LessThanF cc) yes no) => (FLT cc yes no) (NZ (LessEqualF cc) yes no) => (FLE cc yes no) (NZ (GreaterThanF cc) yes no) => (FGT cc yes no) (NZ (GreaterEqualF cc) yes no) => (FGE cc yes no) (EQ (CMPWconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (EQ (TSTWconst [int32(c)] y) yes no) (NE (CMPWconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (NE (TSTWconst [int32(c)] y) yes no) (LT (CMPWconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (LT (TSTWconst [int32(c)] y) yes no) (LE (CMPWconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (LE (TSTWconst [int32(c)] y) yes no) (GT (CMPWconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (GT (TSTWconst [int32(c)] y) yes no) (GE (CMPWconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (GE (TSTWconst [int32(c)] y) yes no) (EQ (CMPconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (EQ (TST x y) yes no) (NE (CMPconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (NE (TST x y) yes no) (LT (CMPconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (LT (TST x y) yes no) (LE (CMPconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (LE (TST x y) yes no) (GT (CMPconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (GT (TST x y) yes no) (GE (CMPconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (GE (TST x y) yes no) (EQ (CMPWconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (EQ (TSTW x y) yes no) (NE (CMPWconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (NE (TSTW x y) yes no) (LT (CMPWconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (LT (TSTW x y) yes no) (LE (CMPWconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (LE (TSTW x y) yes no) (GT (CMPWconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (GT (TSTW x y) yes no) (GE (CMPWconst [0] z:(AND x y)) yes no) && z.Uses == 1 => (GE (TSTW x y) yes no) (EQ (CMPconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (EQ (TSTconst [c] y) yes no) (NE (CMPconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (NE (TSTconst [c] y) yes no) (LT (CMPconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (LT (TSTconst [c] y) yes no) (LE (CMPconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (LE (TSTconst [c] y) yes no) (GT (CMPconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (GT (TSTconst [c] y) yes no) (GE (CMPconst [0] x:(ANDconst [c] y)) yes no) && x.Uses == 1 => (GE (TSTconst [c] y) yes no) (EQ (CMPconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (EQ (CMNconst [c] y) yes no) (NE (CMPconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (NE (CMNconst [c] y) yes no) (LT (CMPconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (LTnoov (CMNconst [c] y) yes no) (LE (CMPconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (LEnoov (CMNconst [c] y) yes no) (GT (CMPconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (GTnoov (CMNconst [c] y) yes no) (GE (CMPconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (GEnoov (CMNconst [c] y) yes no) (EQ (CMPWconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (EQ (CMNWconst [int32(c)] y) yes no) (NE (CMPWconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (NE (CMNWconst [int32(c)] y) yes no) (LT (CMPWconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (LTnoov (CMNWconst [int32(c)] y) yes no) (LE (CMPWconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (LEnoov (CMNWconst [int32(c)] y) yes no) (GT (CMPWconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (GTnoov (CMNWconst [int32(c)] y) yes no) (GE (CMPWconst [0] x:(ADDconst [c] y)) yes no) && x.Uses == 1 => (GEnoov (CMNWconst [int32(c)] y) yes no) (EQ (CMPconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (EQ (CMN x y) yes no) (NE (CMPconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (NE (CMN x y) yes no) (LT (CMPconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (LTnoov (CMN x y) yes no) (LE (CMPconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (LEnoov (CMN x y) yes no) (GT (CMPconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (GTnoov (CMN x y) yes no) (GE (CMPconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (GEnoov (CMN x y) yes no) (EQ (CMPWconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (EQ (CMNW x y) yes no) (NE (CMPWconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (NE (CMNW x y) yes no) (LT (CMPWconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (LTnoov (CMNW x y) yes no) (LE (CMPWconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (LEnoov (CMNW x y) yes no) (GT (CMPWconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (GTnoov (CMNW x y) yes no) (GE (CMPWconst [0] z:(ADD x y)) yes no) && z.Uses == 1 => (GEnoov (CMNW x y) yes no) // CMP(x,-y) -> CMN(x,y) is only valid for unordered comparison, if y can be -1<<63 (EQ (CMP x z:(NEG y)) yes no) && z.Uses == 1 => (EQ (CMN x y) yes no) (NE (CMP x z:(NEG y)) yes no) && z.Uses == 1 => (NE (CMN x y) yes no) // CMPW(x,-y) -> CMNW(x,y) is only valid for unordered comparison, if y can be -1<<31 (EQ (CMPW x z:(NEG y)) yes no) && z.Uses == 1 => (EQ (CMNW x y) yes no) (NE (CMPW x z:(NEG y)) yes no) && z.Uses == 1 => (NE (CMNW x y) yes no) (EQ (CMPconst [0] x) yes no) => (Z x yes no) (NE (CMPconst [0] x) yes no) => (NZ x yes no) (EQ (CMPWconst [0] x) yes no) => (ZW x yes no) (NE (CMPWconst [0] x) yes no) => (NZW x yes no) (EQ (CMPconst [0] z:(MADD a x y)) yes no) && z.Uses==1 => (EQ (CMN a (MUL x y)) yes no) (NE (CMPconst [0] z:(MADD a x y)) yes no) && z.Uses==1 => (NE (CMN a (MUL x y)) yes no) (LT (CMPconst [0] z:(MADD a x y)) yes no) && z.Uses==1 => (LTnoov (CMN a (MUL x y)) yes no) (LE (CMPconst [0] z:(MADD a x y)) yes no) && z.Uses==1 => (LEnoov (CMN a (MUL x y)) yes no) (GT (CMPconst [0] z:(MADD a x y)) yes no) && z.Uses==1 => (GTnoov (CMN a (MUL x y)) yes no) (GE (CMPconst [0] z:(MADD a x y)) yes no) && z.Uses==1 => (GEnoov (CMN a (MUL x y)) yes no) (EQ (CMPconst [0] z:(MSUB a x y)) yes no) && z.Uses==1 => (EQ (CMP a (MUL x y)) yes no) (NE (CMPconst [0] z:(MSUB a x y)) yes no) && z.Uses==1 => (NE (CMP a (MUL x y)) yes no) (LE (CMPconst [0] z:(MSUB a x y)) yes no) && z.Uses==1 => (LEnoov (CMP a (MUL x y)) yes no) (LT (CMPconst [0] z:(MSUB a x y)) yes no) && z.Uses==1 => (LTnoov (CMP a (MUL x y)) yes no) (GE (CMPconst [0] z:(MSUB a x y)) yes no) && z.Uses==1 => (GEnoov (CMP a (MUL x y)) yes no) (GT (CMPconst [0] z:(MSUB a x y)) yes no) && z.Uses==1 => (GTnoov (CMP a (MUL x y)) yes no) (EQ (CMPWconst [0] z:(MADDW a x y)) yes no) && z.Uses==1 => (EQ (CMNW a (MULW x y)) yes no) (NE (CMPWconst [0] z:(MADDW a x y)) yes no) && z.Uses==1 => (NE (CMNW a (MULW x y)) yes no) (LE (CMPWconst [0] z:(MADDW a x y)) yes no) && z.Uses==1 => (LEnoov (CMNW a (MULW x y)) yes no) (LT (CMPWconst [0] z:(MADDW a x y)) yes no) && z.Uses==1 => (LTnoov (CMNW a (MULW x y)) yes no) (GE (CMPWconst [0] z:(MADDW a x y)) yes no) && z.Uses==1 => (GEnoov (CMNW a (MULW x y)) yes no) (GT (CMPWconst [0] z:(MADDW a x y)) yes no) && z.Uses==1 => (GTnoov (CMNW a (MULW x y)) yes no) (EQ (CMPWconst [0] z:(MSUBW a x y)) yes no) && z.Uses==1 => (EQ (CMPW a (MULW x y)) yes no) (NE (CMPWconst [0] z:(MSUBW a x y)) yes no) && z.Uses==1 => (NE (CMPW a (MULW x y)) yes no) (LE (CMPWconst [0] z:(MSUBW a x y)) yes no) && z.Uses==1 => (LEnoov (CMPW a (MULW x y)) yes no) (LT (CMPWconst [0] z:(MSUBW a x y)) yes no) && z.Uses==1 => (LTnoov (CMPW a (MULW x y)) yes no) (GE (CMPWconst [0] z:(MSUBW a x y)) yes no) && z.Uses==1 => (GEnoov (CMPW a (MULW x y)) yes no) (GT (CMPWconst [0] z:(MSUBW a x y)) yes no) && z.Uses==1 => (GTnoov (CMPW a (MULW x y)) yes no) // Absorb bit-tests into block (Z (ANDconst [c] x) yes no) && oneBit(c) => (TBZ [int64(ntz64(c))] x yes no) (NZ (ANDconst [c] x) yes no) && oneBit(c) => (TBNZ [int64(ntz64(c))] x yes no) (ZW (ANDconst [c] x) yes no) && oneBit(int64(uint32(c))) => (TBZ [int64(ntz64(int64(uint32(c))))] x yes no) (NZW (ANDconst [c] x) yes no) && oneBit(int64(uint32(c))) => (TBNZ [int64(ntz64(int64(uint32(c))))] x yes no) (EQ (TSTconst [c] x) yes no) && oneBit(c) => (TBZ [int64(ntz64(c))] x yes no) (NE (TSTconst [c] x) yes no) && oneBit(c) => (TBNZ [int64(ntz64(c))] x yes no) (EQ (TSTWconst [c] x) yes no) && oneBit(int64(uint32(c))) => (TBZ [int64(ntz64(int64(uint32(c))))] x yes no) (NE (TSTWconst [c] x) yes no) && oneBit(int64(uint32(c))) => (TBNZ [int64(ntz64(int64(uint32(c))))] x yes no) // Test sign-bit for signed comparisons against zero (GE (CMPWconst [0] x) yes no) => (TBZ [31] x yes no) (GE (CMPconst [0] x) yes no) => (TBZ [63] x yes no) (LT (CMPWconst [0] x) yes no) => (TBNZ [31] x yes no) (LT (CMPconst [0] x) yes no) => (TBNZ [63] x yes no) // fold offset into address (ADDconst [off1] (MOVDaddr [off2] {sym} ptr)) && is32Bit(off1+int64(off2)) => (MOVDaddr [int32(off1)+off2] {sym} ptr) // fold address into load/store (MOVBload [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVBload [off1+int32(off2)] {sym} ptr mem) (MOVBUload [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVBUload [off1+int32(off2)] {sym} ptr mem) (MOVHload [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVHload [off1+int32(off2)] {sym} ptr mem) (MOVHUload [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVHUload [off1+int32(off2)] {sym} ptr mem) (MOVWload [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVWload [off1+int32(off2)] {sym} ptr mem) (MOVWUload [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVWUload [off1+int32(off2)] {sym} ptr mem) (MOVDload [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVDload [off1+int32(off2)] {sym} ptr mem) (FMOVSload [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (FMOVSload [off1+int32(off2)] {sym} ptr mem) (FMOVDload [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (FMOVDload [off1+int32(off2)] {sym} ptr mem) // register indexed load (MOVDload [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVDloadidx ptr idx mem) (MOVWUload [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVWUloadidx ptr idx mem) (MOVWload [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVWloadidx ptr idx mem) (MOVHUload [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVHUloadidx ptr idx mem) (MOVHload [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVHloadidx ptr idx mem) (MOVBUload [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVBUloadidx ptr idx mem) (MOVBload [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVBloadidx ptr idx mem) (FMOVSload [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (FMOVSloadidx ptr idx mem) (FMOVDload [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (FMOVDloadidx ptr idx mem) (MOVDloadidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVDload [int32(c)] ptr mem) (MOVDloadidx (MOVDconst [c]) ptr mem) && is32Bit(c) => (MOVDload [int32(c)] ptr mem) (MOVWUloadidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVWUload [int32(c)] ptr mem) (MOVWUloadidx (MOVDconst [c]) ptr mem) && is32Bit(c) => (MOVWUload [int32(c)] ptr mem) (MOVWloadidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVWload [int32(c)] ptr mem) (MOVWloadidx (MOVDconst [c]) ptr mem) && is32Bit(c) => (MOVWload [int32(c)] ptr mem) (MOVHUloadidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVHUload [int32(c)] ptr mem) (MOVHUloadidx (MOVDconst [c]) ptr mem) && is32Bit(c) => (MOVHUload [int32(c)] ptr mem) (MOVHloadidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVHload [int32(c)] ptr mem) (MOVHloadidx (MOVDconst [c]) ptr mem) && is32Bit(c) => (MOVHload [int32(c)] ptr mem) (MOVBUloadidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVBUload [int32(c)] ptr mem) (MOVBUloadidx (MOVDconst [c]) ptr mem) && is32Bit(c) => (MOVBUload [int32(c)] ptr mem) (MOVBloadidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVBload [int32(c)] ptr mem) (MOVBloadidx (MOVDconst [c]) ptr mem) && is32Bit(c) => (MOVBload [int32(c)] ptr mem) (FMOVSloadidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (FMOVSload [int32(c)] ptr mem) (FMOVSloadidx (MOVDconst [c]) ptr mem) && is32Bit(c) => (FMOVSload [int32(c)] ptr mem) (FMOVDloadidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (FMOVDload [int32(c)] ptr mem) (FMOVDloadidx (MOVDconst [c]) ptr mem) && is32Bit(c) => (FMOVDload [int32(c)] ptr mem) // shifted register indexed load (MOVDload [off] {sym} (ADDshiftLL [3] ptr idx) mem) && off == 0 && sym == nil => (MOVDloadidx8 ptr idx mem) (MOVWUload [off] {sym} (ADDshiftLL [2] ptr idx) mem) && off == 0 && sym == nil => (MOVWUloadidx4 ptr idx mem) (MOVWload [off] {sym} (ADDshiftLL [2] ptr idx) mem) && off == 0 && sym == nil => (MOVWloadidx4 ptr idx mem) (MOVHUload [off] {sym} (ADDshiftLL [1] ptr idx) mem) && off == 0 && sym == nil => (MOVHUloadidx2 ptr idx mem) (MOVHload [off] {sym} (ADDshiftLL [1] ptr idx) mem) && off == 0 && sym == nil => (MOVHloadidx2 ptr idx mem) (MOVDloadidx ptr (SLLconst [3] idx) mem) => (MOVDloadidx8 ptr idx mem) (MOVWloadidx ptr (SLLconst [2] idx) mem) => (MOVWloadidx4 ptr idx mem) (MOVWUloadidx ptr (SLLconst [2] idx) mem) => (MOVWUloadidx4 ptr idx mem) (MOVHloadidx ptr (SLLconst [1] idx) mem) => (MOVHloadidx2 ptr idx mem) (MOVHUloadidx ptr (SLLconst [1] idx) mem) => (MOVHUloadidx2 ptr idx mem) (MOVHloadidx ptr (ADD idx idx) mem) => (MOVHloadidx2 ptr idx mem) (MOVHUloadidx ptr (ADD idx idx) mem) => (MOVHUloadidx2 ptr idx mem) (MOVDloadidx (SLLconst [3] idx) ptr mem) => (MOVDloadidx8 ptr idx mem) (MOVWloadidx (SLLconst [2] idx) ptr mem) => (MOVWloadidx4 ptr idx mem) (MOVWUloadidx (SLLconst [2] idx) ptr mem) => (MOVWUloadidx4 ptr idx mem) (MOVHloadidx (ADD idx idx) ptr mem) => (MOVHloadidx2 ptr idx mem) (MOVHUloadidx (ADD idx idx) ptr mem) => (MOVHUloadidx2 ptr idx mem) (MOVDloadidx8 ptr (MOVDconst [c]) mem) && is32Bit(c<<3) => (MOVDload [int32(c)<<3] ptr mem) (MOVWUloadidx4 ptr (MOVDconst [c]) mem) && is32Bit(c<<2) => (MOVWUload [int32(c)<<2] ptr mem) (MOVWloadidx4 ptr (MOVDconst [c]) mem) && is32Bit(c<<2) => (MOVWload [int32(c)<<2] ptr mem) (MOVHUloadidx2 ptr (MOVDconst [c]) mem) && is32Bit(c<<1) => (MOVHUload [int32(c)<<1] ptr mem) (MOVHloadidx2 ptr (MOVDconst [c]) mem) && is32Bit(c<<1) => (MOVHload [int32(c)<<1] ptr mem) (FMOVDload [off] {sym} (ADDshiftLL [3] ptr idx) mem) && off == 0 && sym == nil => (FMOVDloadidx8 ptr idx mem) (FMOVSload [off] {sym} (ADDshiftLL [2] ptr idx) mem) && off == 0 && sym == nil => (FMOVSloadidx4 ptr idx mem) (FMOVDloadidx ptr (SLLconst [3] idx) mem) => (FMOVDloadidx8 ptr idx mem) (FMOVSloadidx ptr (SLLconst [2] idx) mem) => (FMOVSloadidx4 ptr idx mem) (FMOVDloadidx (SLLconst [3] idx) ptr mem) => (FMOVDloadidx8 ptr idx mem) (FMOVSloadidx (SLLconst [2] idx) ptr mem) => (FMOVSloadidx4 ptr idx mem) (FMOVDloadidx8 ptr (MOVDconst [c]) mem) && is32Bit(c<<3) => (FMOVDload ptr [int32(c)<<3] mem) (FMOVSloadidx4 ptr (MOVDconst [c]) mem) && is32Bit(c<<2) => (FMOVSload ptr [int32(c)<<2] mem) (MOVBstore [off1] {sym} (ADDconst [off2] ptr) val mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVBstore [off1+int32(off2)] {sym} ptr val mem) (MOVHstore [off1] {sym} (ADDconst [off2] ptr) val mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVHstore [off1+int32(off2)] {sym} ptr val mem) (MOVWstore [off1] {sym} (ADDconst [off2] ptr) val mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVWstore [off1+int32(off2)] {sym} ptr val mem) (MOVDstore [off1] {sym} (ADDconst [off2] ptr) val mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVDstore [off1+int32(off2)] {sym} ptr val mem) (STP [off1] {sym} (ADDconst [off2] ptr) val1 val2 mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (STP [off1+int32(off2)] {sym} ptr val1 val2 mem) (FMOVSstore [off1] {sym} (ADDconst [off2] ptr) val mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (FMOVSstore [off1+int32(off2)] {sym} ptr val mem) (FMOVDstore [off1] {sym} (ADDconst [off2] ptr) val mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (FMOVDstore [off1+int32(off2)] {sym} ptr val mem) (MOVBstorezero [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVBstorezero [off1+int32(off2)] {sym} ptr mem) (MOVHstorezero [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVHstorezero [off1+int32(off2)] {sym} ptr mem) (MOVWstorezero [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVWstorezero [off1+int32(off2)] {sym} ptr mem) (MOVDstorezero [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVDstorezero [off1+int32(off2)] {sym} ptr mem) (MOVQstorezero [off1] {sym} (ADDconst [off2] ptr) mem) && is32Bit(int64(off1)+off2) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVQstorezero [off1+int32(off2)] {sym} ptr mem) // register indexed store (MOVDstore [off] {sym} (ADD ptr idx) val mem) && off == 0 && sym == nil => (MOVDstoreidx ptr idx val mem) (MOVWstore [off] {sym} (ADD ptr idx) val mem) && off == 0 && sym == nil => (MOVWstoreidx ptr idx val mem) (MOVHstore [off] {sym} (ADD ptr idx) val mem) && off == 0 && sym == nil => (MOVHstoreidx ptr idx val mem) (MOVBstore [off] {sym} (ADD ptr idx) val mem) && off == 0 && sym == nil => (MOVBstoreidx ptr idx val mem) (FMOVDstore [off] {sym} (ADD ptr idx) val mem) && off == 0 && sym == nil => (FMOVDstoreidx ptr idx val mem) (FMOVSstore [off] {sym} (ADD ptr idx) val mem) && off == 0 && sym == nil => (FMOVSstoreidx ptr idx val mem) (MOVDstoreidx ptr (MOVDconst [c]) val mem) && is32Bit(c) => (MOVDstore [int32(c)] ptr val mem) (MOVDstoreidx (MOVDconst [c]) idx val mem) && is32Bit(c) => (MOVDstore [int32(c)] idx val mem) (MOVWstoreidx ptr (MOVDconst [c]) val mem) && is32Bit(c) => (MOVWstore [int32(c)] ptr val mem) (MOVWstoreidx (MOVDconst [c]) idx val mem) && is32Bit(c) => (MOVWstore [int32(c)] idx val mem) (MOVHstoreidx ptr (MOVDconst [c]) val mem) && is32Bit(c) => (MOVHstore [int32(c)] ptr val mem) (MOVHstoreidx (MOVDconst [c]) idx val mem) && is32Bit(c) => (MOVHstore [int32(c)] idx val mem) (MOVBstoreidx ptr (MOVDconst [c]) val mem) && is32Bit(c) => (MOVBstore [int32(c)] ptr val mem) (MOVBstoreidx (MOVDconst [c]) idx val mem) && is32Bit(c) => (MOVBstore [int32(c)] idx val mem) (FMOVDstoreidx ptr (MOVDconst [c]) val mem) && is32Bit(c) => (FMOVDstore [int32(c)] ptr val mem) (FMOVDstoreidx (MOVDconst [c]) idx val mem) && is32Bit(c) => (FMOVDstore [int32(c)] idx val mem) (FMOVSstoreidx ptr (MOVDconst [c]) val mem) && is32Bit(c) => (FMOVSstore [int32(c)] ptr val mem) (FMOVSstoreidx (MOVDconst [c]) idx val mem) && is32Bit(c) => (FMOVSstore [int32(c)] idx val mem) // shifted register indexed store (MOVDstore [off] {sym} (ADDshiftLL [3] ptr idx) val mem) && off == 0 && sym == nil => (MOVDstoreidx8 ptr idx val mem) (MOVWstore [off] {sym} (ADDshiftLL [2] ptr idx) val mem) && off == 0 && sym == nil => (MOVWstoreidx4 ptr idx val mem) (MOVHstore [off] {sym} (ADDshiftLL [1] ptr idx) val mem) && off == 0 && sym == nil => (MOVHstoreidx2 ptr idx val mem) (MOVDstoreidx ptr (SLLconst [3] idx) val mem) => (MOVDstoreidx8 ptr idx val mem) (MOVWstoreidx ptr (SLLconst [2] idx) val mem) => (MOVWstoreidx4 ptr idx val mem) (MOVHstoreidx ptr (SLLconst [1] idx) val mem) => (MOVHstoreidx2 ptr idx val mem) (MOVHstoreidx ptr (ADD idx idx) val mem) => (MOVHstoreidx2 ptr idx val mem) (MOVDstoreidx (SLLconst [3] idx) ptr val mem) => (MOVDstoreidx8 ptr idx val mem) (MOVWstoreidx (SLLconst [2] idx) ptr val mem) => (MOVWstoreidx4 ptr idx val mem) (MOVHstoreidx (SLLconst [1] idx) ptr val mem) => (MOVHstoreidx2 ptr idx val mem) (MOVHstoreidx (ADD idx idx) ptr val mem) => (MOVHstoreidx2 ptr idx val mem) (MOVDstoreidx8 ptr (MOVDconst [c]) val mem) && is32Bit(c<<3) => (MOVDstore [int32(c)<<3] ptr val mem) (MOVWstoreidx4 ptr (MOVDconst [c]) val mem) && is32Bit(c<<2) => (MOVWstore [int32(c)<<2] ptr val mem) (MOVHstoreidx2 ptr (MOVDconst [c]) val mem) && is32Bit(c<<1) => (MOVHstore [int32(c)<<1] ptr val mem) (FMOVDstore [off] {sym} (ADDshiftLL [3] ptr idx) val mem) && off == 0 && sym == nil => (FMOVDstoreidx8 ptr idx val mem) (FMOVSstore [off] {sym} (ADDshiftLL [2] ptr idx) val mem) && off == 0 && sym == nil => (FMOVSstoreidx4 ptr idx val mem) (FMOVDstoreidx ptr (SLLconst [3] idx) val mem) => (FMOVDstoreidx8 ptr idx val mem) (FMOVSstoreidx ptr (SLLconst [2] idx) val mem) => (FMOVSstoreidx4 ptr idx val mem) (FMOVDstoreidx (SLLconst [3] idx) ptr val mem) => (FMOVDstoreidx8 ptr idx val mem) (FMOVSstoreidx (SLLconst [2] idx) ptr val mem) => (FMOVSstoreidx4 ptr idx val mem) (FMOVDstoreidx8 ptr (MOVDconst [c]) val mem) && is32Bit(c<<3) => (FMOVDstore [int32(c)<<3] ptr val mem) (FMOVSstoreidx4 ptr (MOVDconst [c]) val mem) && is32Bit(c<<2) => (FMOVSstore [int32(c)<<2] ptr val mem) (MOVBload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVBload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVBUload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVBUload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVHload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVHload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVHUload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVHUload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVWload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVWload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVWUload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVWUload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVDload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVDload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (FMOVSload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (FMOVSload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (FMOVDload [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (FMOVDload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVBstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVBstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) (MOVHstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVHstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) (MOVWstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVWstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) (MOVDstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVDstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) (STP [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val1 val2 mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (STP [off1+off2] {mergeSym(sym1,sym2)} ptr val1 val2 mem) (FMOVSstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (FMOVSstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) (FMOVDstore [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (FMOVDstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem) (MOVBstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVBstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVHstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVHstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVWstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVWstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVDstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVDstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) (MOVQstorezero [off1] {sym1} (MOVDaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) && is32Bit(int64(off1)+int64(off2)) && (ptr.Op != OpSB || !config.ctxt.Flag_shared) => (MOVQstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem) // store zero (MOVBstore [off] {sym} ptr (MOVDconst [0]) mem) => (MOVBstorezero [off] {sym} ptr mem) (MOVHstore [off] {sym} ptr (MOVDconst [0]) mem) => (MOVHstorezero [off] {sym} ptr mem) (MOVWstore [off] {sym} ptr (MOVDconst [0]) mem) => (MOVWstorezero [off] {sym} ptr mem) (MOVDstore [off] {sym} ptr (MOVDconst [0]) mem) => (MOVDstorezero [off] {sym} ptr mem) (STP [off] {sym} ptr (MOVDconst [0]) (MOVDconst [0]) mem) => (MOVQstorezero [off] {sym} ptr mem) // register indexed store zero (MOVDstorezero [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVDstorezeroidx ptr idx mem) (MOVWstorezero [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVWstorezeroidx ptr idx mem) (MOVHstorezero [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVHstorezeroidx ptr idx mem) (MOVBstorezero [off] {sym} (ADD ptr idx) mem) && off == 0 && sym == nil => (MOVBstorezeroidx ptr idx mem) (MOVDstoreidx ptr idx (MOVDconst [0]) mem) => (MOVDstorezeroidx ptr idx mem) (MOVWstoreidx ptr idx (MOVDconst [0]) mem) => (MOVWstorezeroidx ptr idx mem) (MOVHstoreidx ptr idx (MOVDconst [0]) mem) => (MOVHstorezeroidx ptr idx mem) (MOVBstoreidx ptr idx (MOVDconst [0]) mem) => (MOVBstorezeroidx ptr idx mem) (MOVDstorezeroidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVDstorezero [int32(c)] ptr mem) (MOVDstorezeroidx (MOVDconst [c]) idx mem) && is32Bit(c) => (MOVDstorezero [int32(c)] idx mem) (MOVWstorezeroidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVWstorezero [int32(c)] ptr mem) (MOVWstorezeroidx (MOVDconst [c]) idx mem) && is32Bit(c) => (MOVWstorezero [int32(c)] idx mem) (MOVHstorezeroidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVHstorezero [int32(c)] ptr mem) (MOVHstorezeroidx (MOVDconst [c]) idx mem) && is32Bit(c) => (MOVHstorezero [int32(c)] idx mem) (MOVBstorezeroidx ptr (MOVDconst [c]) mem) && is32Bit(c) => (MOVBstorezero [int32(c)] ptr mem) (MOVBstorezeroidx (MOVDconst [c]) idx mem) && is32Bit(c) => (MOVBstorezero [int32(c)] idx mem) // shifted register indexed store zero (MOVDstorezero [off] {sym} (ADDshiftLL [3] ptr idx) mem) && off == 0 && sym == nil => (MOVDstorezeroidx8 ptr idx mem) (MOVWstorezero [off] {sym} (ADDshiftLL [2] ptr idx) mem) && off == 0 && sym == nil => (MOVWstorezeroidx4 ptr idx mem) (MOVHstorezero [off] {sym} (ADDshiftLL [1] ptr idx) mem) && off == 0 && sym == nil => (MOVHstorezeroidx2 ptr idx mem) (MOVDstorezeroidx ptr (SLLconst [3] idx) mem) => (MOVDstorezeroidx8 ptr idx mem) (MOVWstorezeroidx ptr (SLLconst [2] idx) mem) => (MOVWstorezeroidx4 ptr idx mem) (MOVHstorezeroidx ptr (SLLconst [1] idx) mem) => (MOVHstorezeroidx2 ptr idx mem) (MOVHstorezeroidx ptr (ADD idx idx) mem) => (MOVHstorezeroidx2 ptr idx mem) (MOVDstorezeroidx (SLLconst [3] idx) ptr mem) => (MOVDstorezeroidx8 ptr idx mem) (MOVWstorezeroidx (SLLconst [2] idx) ptr mem) => (MOVWstorezeroidx4 ptr idx mem) (MOVHstorezeroidx (SLLconst [1] idx) ptr mem) => (MOVHstorezeroidx2 ptr idx mem) (MOVHstorezeroidx (ADD idx idx) ptr mem) => (MOVHstorezeroidx2 ptr idx mem) (MOVDstoreidx8 ptr idx (MOVDconst [0]) mem) => (MOVDstorezeroidx8 ptr idx mem) (MOVWstoreidx4 ptr idx (MOVDconst [0]) mem) => (MOVWstorezeroidx4 ptr idx mem) (MOVHstoreidx2 ptr idx (MOVDconst [0]) mem) => (MOVHstorezeroidx2 ptr idx mem) (MOVDstorezeroidx8 ptr (MOVDconst [c]) mem) && is32Bit(c<<3) => (MOVDstorezero [int32(c<<3)] ptr mem) (MOVWstorezeroidx4 ptr (MOVDconst [c]) mem) && is32Bit(c<<2) => (MOVWstorezero [int32(c<<2)] ptr mem) (MOVHstorezeroidx2 ptr (MOVDconst [c]) mem) && is32Bit(c<<1) => (MOVHstorezero [int32(c<<1)] ptr mem) // replace load from same location as preceding store with zero/sign extension (or copy in case of full width) // these seem to have bad interaction with other rules, resulting in slower code //(MOVBload [off] {sym} ptr (MOVBstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVBreg x) //(MOVBUload [off] {sym} ptr (MOVBstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVBUreg x) //(MOVHload [off] {sym} ptr (MOVHstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVHreg x) //(MOVHUload [off] {sym} ptr (MOVHstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVHUreg x) //(MOVWload [off] {sym} ptr (MOVWstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVWreg x) //(MOVWUload [off] {sym} ptr (MOVWstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVWUreg x) //(MOVDload [off] {sym} ptr (MOVDstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> x //(FMOVSload [off] {sym} ptr (FMOVSstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> x //(FMOVDload [off] {sym} ptr (FMOVDstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> x (MOVBload [off] {sym} ptr (MOVBstorezero [off2] {sym2} ptr2 _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) => (MOVDconst [0]) (MOVBUload [off] {sym} ptr (MOVBstorezero [off2] {sym2} ptr2 _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) => (MOVDconst [0]) (MOVHload [off] {sym} ptr (MOVHstorezero [off2] {sym2} ptr2 _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) => (MOVDconst [0]) (MOVHUload [off] {sym} ptr (MOVHstorezero [off2] {sym2} ptr2 _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) => (MOVDconst [0]) (MOVWload [off] {sym} ptr (MOVWstorezero [off2] {sym2} ptr2 _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) => (MOVDconst [0]) (MOVWUload [off] {sym} ptr (MOVWstorezero [off2] {sym2} ptr2 _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) => (MOVDconst [0]) (MOVDload [off] {sym} ptr (MOVDstorezero [off2] {sym2} ptr2 _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) => (MOVDconst [0]) (MOVBloadidx ptr idx (MOVBstorezeroidx ptr2 idx2 _)) && (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) => (MOVDconst [0]) (MOVBUloadidx ptr idx (MOVBstorezeroidx ptr2 idx2 _)) && (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) => (MOVDconst [0]) (MOVHloadidx ptr idx (MOVHstorezeroidx ptr2 idx2 _)) && (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) => (MOVDconst [0]) (MOVHUloadidx ptr idx (MOVHstorezeroidx ptr2 idx2 _)) && (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) => (MOVDconst [0]) (MOVWloadidx ptr idx (MOVWstorezeroidx ptr2 idx2 _)) && (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) => (MOVDconst [0]) (MOVWUloadidx ptr idx (MOVWstorezeroidx ptr2 idx2 _)) && (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) => (MOVDconst [0]) (MOVDloadidx ptr idx (MOVDstorezeroidx ptr2 idx2 _)) && (isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) || isSamePtr(ptr, idx2) && isSamePtr(idx, ptr2)) => (MOVDconst [0]) (MOVHloadidx2 ptr idx (MOVHstorezeroidx2 ptr2 idx2 _)) && isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) => (MOVDconst [0]) (MOVHUloadidx2 ptr idx (MOVHstorezeroidx2 ptr2 idx2 _)) && isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) => (MOVDconst [0]) (MOVWloadidx4 ptr idx (MOVWstorezeroidx4 ptr2 idx2 _)) && isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) => (MOVDconst [0]) (MOVWUloadidx4 ptr idx (MOVWstorezeroidx4 ptr2 idx2 _)) && isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) => (MOVDconst [0]) (MOVDloadidx8 ptr idx (MOVDstorezeroidx8 ptr2 idx2 _)) && isSamePtr(ptr, ptr2) && isSamePtr(idx, idx2) => (MOVDconst [0]) // don't extend after proper load (MOVBreg x:(MOVBload _ _)) => (MOVDreg x) (MOVBUreg x:(MOVBUload _ _)) => (MOVDreg x) (MOVHreg x:(MOVBload _ _)) => (MOVDreg x) (MOVHreg x:(MOVBUload _ _)) => (MOVDreg x) (MOVHreg x:(MOVHload _ _)) => (MOVDreg x) (MOVHUreg x:(MOVBUload _ _)) => (MOVDreg x) (MOVHUreg x:(MOVHUload _ _)) => (MOVDreg x) (MOVWreg x:(MOVBload _ _)) => (MOVDreg x) (MOVWreg x:(MOVBUload _ _)) => (MOVDreg x) (MOVWreg x:(MOVHload _ _)) => (MOVDreg x) (MOVWreg x:(MOVHUload _ _)) => (MOVDreg x) (MOVWreg x:(MOVWload _ _)) => (MOVDreg x) (MOVWUreg x:(MOVBUload _ _)) => (MOVDreg x) (MOVWUreg x:(MOVHUload _ _)) => (MOVDreg x) (MOVWUreg x:(MOVWUload _ _)) => (MOVDreg x) (MOVBreg x:(MOVBloadidx _ _ _)) => (MOVDreg x) (MOVBUreg x:(MOVBUloadidx _ _ _)) => (MOVDreg x) (MOVHreg x:(MOVBloadidx _ _ _)) => (MOVDreg x) (MOVHreg x:(MOVBUloadidx _ _ _)) => (MOVDreg x) (MOVHreg x:(MOVHloadidx _ _ _)) => (MOVDreg x) (MOVHUreg x:(MOVBUloadidx _ _ _)) => (MOVDreg x) (MOVHUreg x:(MOVHUloadidx _ _ _)) => (MOVDreg x) (MOVWreg x:(MOVBloadidx _ _ _)) => (MOVDreg x) (MOVWreg x:(MOVBUloadidx _ _ _)) => (MOVDreg x) (MOVWreg x:(MOVHloadidx _ _ _)) => (MOVDreg x) (MOVWreg x:(MOVHUloadidx _ _ _)) => (MOVDreg x) (MOVWreg x:(MOVWloadidx _ _ _)) => (MOVDreg x) (MOVWUreg x:(MOVBUloadidx _ _ _)) => (MOVDreg x) (MOVWUreg x:(MOVHUloadidx _ _ _)) => (MOVDreg x) (MOVWUreg x:(MOVWUloadidx _ _ _)) => (MOVDreg x) (MOVHreg x:(MOVHloadidx2 _ _ _)) => (MOVDreg x) (MOVHUreg x:(MOVHUloadidx2 _ _ _)) => (MOVDreg x) (MOVWreg x:(MOVHloadidx2 _ _ _)) => (MOVDreg x) (MOVWreg x:(MOVHUloadidx2 _ _ _)) => (MOVDreg x) (MOVWreg x:(MOVWloadidx4 _ _ _)) => (MOVDreg x) (MOVWUreg x:(MOVHUloadidx2 _ _ _)) => (MOVDreg x) (MOVWUreg x:(MOVWUloadidx4 _ _ _)) => (MOVDreg x) // fold double extensions (MOVBreg x:(MOVBreg _)) => (MOVDreg x) (MOVBUreg x:(MOVBUreg _)) => (MOVDreg x) (MOVHreg x:(MOVBreg _)) => (MOVDreg x) (MOVHreg x:(MOVBUreg _)) => (MOVDreg x) (MOVHreg x:(MOVHreg _)) => (MOVDreg x) (MOVHUreg x:(MOVBUreg _)) => (MOVDreg x) (MOVHUreg x:(MOVHUreg _)) => (MOVDreg x) (MOVWreg x:(MOVBreg _)) => (MOVDreg x) (MOVWreg x:(MOVBUreg _)) => (MOVDreg x) (MOVWreg x:(MOVHreg _)) => (MOVDreg x) (MOVWreg x:(MOVWreg _)) => (MOVDreg x) (MOVWUreg x:(MOVBUreg _)) => (MOVDreg x) (MOVWUreg x:(MOVHUreg _)) => (MOVDreg x) (MOVWUreg x:(MOVWUreg _)) => (MOVDreg x) // don't extend before store (MOVBstore [off] {sym} ptr (MOVBreg x) mem) => (MOVBstore [off] {sym} ptr x mem) (MOVBstore [off] {sym} ptr (MOVBUreg x) mem) => (MOVBstore [off] {sym} ptr x mem) (MOVBstore [off] {sym} ptr (MOVHreg x) mem) => (MOVBstore [off] {sym} ptr x mem) (MOVBstore [off] {sym} ptr (MOVHUreg x) mem) => (MOVBstore [off] {sym} ptr x mem) (MOVBstore [off] {sym} ptr (MOVWreg x) mem) => (MOVBstore [off] {sym} ptr x mem) (MOVBstore [off] {sym} ptr (MOVWUreg x) mem) => (MOVBstore [off] {sym} ptr x mem) (MOVHstore [off] {sym} ptr (MOVHreg x) mem) => (MOVHstore [off] {sym} ptr x mem) (MOVHstore [off] {sym} ptr (MOVHUreg x) mem) => (MOVHstore [off] {sym} ptr x mem) (MOVHstore [off] {sym} ptr (MOVWreg x) mem) => (MOVHstore [off] {sym} ptr x mem) (MOVHstore [off] {sym} ptr (MOVWUreg x) mem) => (MOVHstore [off] {sym} ptr x mem) (MOVWstore [off] {sym} ptr (MOVWreg x) mem) => (MOVWstore [off] {sym} ptr x mem) (MOVWstore [off] {sym} ptr (MOVWUreg x) mem) => (MOVWstore [off] {sym} ptr x mem) (MOVBstoreidx ptr idx (MOVBreg x) mem) => (MOVBstoreidx ptr idx x mem) (MOVBstoreidx ptr idx (MOVBUreg x) mem) => (MOVBstoreidx ptr idx x mem) (MOVBstoreidx ptr idx (MOVHreg x) mem) => (MOVBstoreidx ptr idx x mem) (MOVBstoreidx ptr idx (MOVHUreg x) mem) => (MOVBstoreidx ptr idx x mem) (MOVBstoreidx ptr idx (MOVWreg x) mem) => (MOVBstoreidx ptr idx x mem) (MOVBstoreidx ptr idx (MOVWUreg x) mem) => (MOVBstoreidx ptr idx x mem) (MOVHstoreidx ptr idx (MOVHreg x) mem) => (MOVHstoreidx ptr idx x mem) (MOVHstoreidx ptr idx (MOVHUreg x) mem) => (MOVHstoreidx ptr idx x mem) (MOVHstoreidx ptr idx (MOVWreg x) mem) => (MOVHstoreidx ptr idx x mem) (MOVHstoreidx ptr idx (MOVWUreg x) mem) => (MOVHstoreidx ptr idx x mem) (MOVWstoreidx ptr idx (MOVWreg x) mem) => (MOVWstoreidx ptr idx x mem) (MOVWstoreidx ptr idx (MOVWUreg x) mem) => (MOVWstoreidx ptr idx x mem) (MOVHstoreidx2 ptr idx (MOVHreg x) mem) => (MOVHstoreidx2 ptr idx x mem) (MOVHstoreidx2 ptr idx (MOVHUreg x) mem) => (MOVHstoreidx2 ptr idx x mem) (MOVHstoreidx2 ptr idx (MOVWreg x) mem) => (MOVHstoreidx2 ptr idx x mem) (MOVHstoreidx2 ptr idx (MOVWUreg x) mem) => (MOVHstoreidx2 ptr idx x mem) (MOVWstoreidx4 ptr idx (MOVWreg x) mem) => (MOVWstoreidx4 ptr idx x mem) (MOVWstoreidx4 ptr idx (MOVWUreg x) mem) => (MOVWstoreidx4 ptr idx x mem) // if a register move has only 1 use, just use the same register without emitting instruction // MOVDnop doesn't emit instruction, only for ensuring the type. (MOVDreg x) && x.Uses == 1 => (MOVDnop x) // TODO: we should be able to get rid of MOVDnop all together. // But for now, this is enough to get rid of lots of them. (MOVDnop (MOVDconst [c])) => (MOVDconst [c]) // fold constant into arithmatic ops (ADD x (MOVDconst [c])) => (ADDconst [c] x) (SUB x (MOVDconst [c])) => (SUBconst [c] x) (AND x (MOVDconst [c])) => (ANDconst [c] x) (OR x (MOVDconst [c])) => (ORconst [c] x) (XOR x (MOVDconst [c])) => (XORconst [c] x) (TST x (MOVDconst [c])) => (TSTconst [c] x) (TSTW x (MOVDconst [c])) => (TSTWconst [int32(c)] x) (CMN x (MOVDconst [c])) => (CMNconst [c] x) (CMNW x (MOVDconst [c])) => (CMNWconst [int32(c)] x) (BIC x (MOVDconst [c])) => (ANDconst [^c] x) (EON x (MOVDconst [c])) => (XORconst [^c] x) (ORN x (MOVDconst [c])) => (ORconst [^c] x) (SLL x (MOVDconst [c])) => (SLLconst x [c&63]) // Note: I don't think we ever generate bad constant shifts (i.e. c>=64) (SRL x (MOVDconst [c])) => (SRLconst x [c&63]) (SRA x (MOVDconst [c])) => (SRAconst x [c&63]) (CMP x (MOVDconst [c])) => (CMPconst [c] x) (CMP (MOVDconst [c]) x) => (InvertFlags (CMPconst [c] x)) (CMPW x (MOVDconst [c])) => (CMPWconst [int32(c)] x) (CMPW (MOVDconst [c]) x) => (InvertFlags (CMPWconst [int32(c)] x)) (ROR x (MOVDconst [c])) => (RORconst x [c&63]) (RORW x (MOVDconst [c])) => (RORWconst x [c&31]) // Canonicalize the order of arguments to comparisons - helps with CSE. ((CMP|CMPW) x y) && canonLessThan(x,y) => (InvertFlags ((CMP|CMPW) y x)) // mul-neg => mneg (NEG (MUL x y)) => (MNEG x y) (NEG (MULW x y)) => (MNEGW x y) (MUL (NEG x) y) => (MNEG x y) (MULW (NEG x) y) => (MNEGW x y) // madd/msub (ADD a l:(MUL x y)) && l.Uses==1 && clobber(l) => (MADD a x y) (SUB a l:(MUL x y)) && l.Uses==1 && clobber(l) => (MSUB a x y) (ADD a l:(MNEG x y)) && l.Uses==1 && clobber(l) => (MSUB a x y) (SUB a l:(MNEG x y)) && l.Uses==1 && clobber(l) => (MADD a x y) (ADD a l:(MULW x y)) && a.Type.Size() != 8 && l.Uses==1 && clobber(l) => (MADDW a x y) (SUB a l:(MULW x y)) && a.Type.Size() != 8 && l.Uses==1 && clobber(l) => (MSUBW a x y) (ADD a l:(MNEGW x y)) && a.Type.Size() != 8 && l.Uses==1 && clobber(l) => (MSUBW a x y) (SUB a l:(MNEGW x y)) && a.Type.Size() != 8 && l.Uses==1 && clobber(l) => (MADDW a x y) // optimize ADCSflags, SBCSflags and friends (ADCSflags x y (Select1 (ADDSconstflags [-1] (ADCzerocarry c)))) => (ADCSflags x y c) (ADCSflags x y (Select1 (ADDSconstflags [-1] (MOVDconst [0])))) => (ADDSflags x y) (SBCSflags x y (Select1 (NEGSflags (NEG (NGCzerocarry bo))))) => (SBCSflags x y bo) (SBCSflags x y (Select1 (NEGSflags (MOVDconst [0])))) => (SUBSflags x y) // mul by constant (MUL x (MOVDconst [-1])) => (NEG x) (MUL _ (MOVDconst [0])) => (MOVDconst [0]) (MUL x (MOVDconst [1])) => x (MUL x (MOVDconst [c])) && isPowerOfTwo64(c) => (SLLconst [log64(c)] x) (MUL x (MOVDconst [c])) && isPowerOfTwo64(c-1) && c >= 3 => (ADDshiftLL x x [log64(c-1)]) (MUL x (MOVDconst [c])) && isPowerOfTwo64(c+1) && c >= 7 => (ADDshiftLL (NEG x) x [log64(c+1)]) (MUL x (MOVDconst [c])) && c%3 == 0 && isPowerOfTwo64(c/3) => (SLLconst [log64(c/3)] (ADDshiftLL x x [1])) (MUL x (MOVDconst [c])) && c%5 == 0 && isPowerOfTwo64(c/5) => (SLLconst [log64(c/5)] (ADDshiftLL x x [2])) (MUL x (MOVDconst [c])) && c%7 == 0 && isPowerOfTwo64(c/7) => (SLLconst [log64(c/7)] (ADDshiftLL (NEG x) x [3])) (MUL x (MOVDconst [c])) && c%9 == 0 && isPowerOfTwo64(c/9) => (SLLconst [log64(c/9)] (ADDshiftLL x x [3])) (MULW x (MOVDconst [c])) && int32(c)==-1 => (NEG x) (MULW _ (MOVDconst [c])) && int32(c)==0 => (MOVDconst [0]) (MULW x (MOVDconst [c])) && int32(c)==1 => x (MULW x (MOVDconst [c])) && isPowerOfTwo64(c) => (SLLconst [log64(c)] x) (MULW x (MOVDconst [c])) && isPowerOfTwo64(c-1) && int32(c) >= 3 => (ADDshiftLL x x [log64(c-1)]) (MULW x (MOVDconst [c])) && isPowerOfTwo64(c+1) && int32(c) >= 7 => (ADDshiftLL (NEG x) x [log64(c+1)]) (MULW x (MOVDconst [c])) && c%3 == 0 && isPowerOfTwo64(c/3) && is32Bit(c) => (SLLconst [log64(c/3)] (ADDshiftLL x x [1])) (MULW x (MOVDconst [c])) && c%5 == 0 && isPowerOfTwo64(c/5) && is32Bit(c) => (SLLconst [log64(c/5)] (ADDshiftLL x x [2])) (MULW x (MOVDconst [c])) && c%7 == 0 && isPowerOfTwo64(c/7) && is32Bit(c) => (SLLconst [log64(c/7)] (ADDshiftLL (NEG x) x [3])) (MULW x (MOVDconst [c])) && c%9 == 0 && isPowerOfTwo64(c/9) && is32Bit(c) => (SLLconst [log64(c/9)] (ADDshiftLL x x [3])) // mneg by constant (MNEG x (MOVDconst [-1])) => x (MNEG _ (MOVDconst [0])) => (MOVDconst [0]) (MNEG x (MOVDconst [1])) => (NEG x) (MNEG x (MOVDconst [c])) && isPowerOfTwo64(c) => (NEG (SLLconst [log64(c)] x)) (MNEG x (MOVDconst [c])) && isPowerOfTwo64(c-1) && c >= 3 => (NEG (ADDshiftLL x x [log64(c-1)])) (MNEG x (MOVDconst [c])) && isPowerOfTwo64(c+1) && c >= 7 => (NEG (ADDshiftLL (NEG x) x [log64(c+1)])) (MNEG x (MOVDconst [c])) && c%3 == 0 && isPowerOfTwo64(c/3) => (SLLconst [log64(c/3)] (SUBshiftLL x x [2])) (MNEG x (MOVDconst [c])) && c%5 == 0 && isPowerOfTwo64(c/5) => (NEG (SLLconst [log64(c/5)] (ADDshiftLL x x [2]))) (MNEG x (MOVDconst [c])) && c%7 == 0 && isPowerOfTwo64(c/7) => (SLLconst [log64(c/7)] (SUBshiftLL x x [3])) (MNEG x (MOVDconst [c])) && c%9 == 0 && isPowerOfTwo64(c/9) => (NEG (SLLconst [log64(c/9)] (ADDshiftLL x x [3]))) (MNEGW x (MOVDconst [c])) && int32(c)==-1 => x (MNEGW _ (MOVDconst [c])) && int32(c)==0 => (MOVDconst [0]) (MNEGW x (MOVDconst [c])) && int32(c)==1 => (NEG x) (MNEGW x (MOVDconst [c])) && isPowerOfTwo64(c) => (NEG (SLLconst [log64(c)] x)) (MNEGW x (MOVDconst [c])) && isPowerOfTwo64(c-1) && int32(c) >= 3 => (NEG (ADDshiftLL x x [log64(c-1)])) (MNEGW x (MOVDconst [c])) && isPowerOfTwo64(c+1) && int32(c) >= 7 => (NEG (ADDshiftLL (NEG x) x [log64(c+1)])) (MNEGW x (MOVDconst [c])) && c%3 == 0 && isPowerOfTwo64(c/3) && is32Bit(c) => (SLLconst [log64(c/3)] (SUBshiftLL x x [2])) (MNEGW x (MOVDconst [c])) && c%5 == 0 && isPowerOfTwo64(c/5) && is32Bit(c) => (NEG (SLLconst [log64(c/5)] (ADDshiftLL x x [2]))) (MNEGW x (MOVDconst [c])) && c%7 == 0 && isPowerOfTwo64(c/7) && is32Bit(c) => (SLLconst [log64(c/7)] (SUBshiftLL x x [3])) (MNEGW x (MOVDconst [c])) && c%9 == 0 && isPowerOfTwo64(c/9) && is32Bit(c) => (NEG (SLLconst [log64(c/9)] (ADDshiftLL x x [3]))) (MADD a x (MOVDconst [-1])) => (SUB a x) (MADD a _ (MOVDconst [0])) => a (MADD a x (MOVDconst [1])) => (ADD a x) (MADD a x (MOVDconst [c])) && isPowerOfTwo64(c) => (ADDshiftLL a x [log64(c)]) (MADD a x (MOVDconst [c])) && isPowerOfTwo64(c-1) && c>=3 => (ADD a (ADDshiftLL x x [log64(c-1)])) (MADD a x (MOVDconst [c])) && isPowerOfTwo64(c+1) && c>=7 => (SUB a (SUBshiftLL x x [log64(c+1)])) (MADD a x (MOVDconst [c])) && c%3 == 0 && isPowerOfTwo64(c/3) => (SUBshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) (MADD a x (MOVDconst [c])) && c%5 == 0 && isPowerOfTwo64(c/5) => (ADDshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) (MADD a x (MOVDconst [c])) && c%7 == 0 && isPowerOfTwo64(c/7) => (SUBshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) (MADD a x (MOVDconst [c])) && c%9 == 0 && isPowerOfTwo64(c/9) => (ADDshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) (MADD a (MOVDconst [-1]) x) => (SUB a x) (MADD a (MOVDconst [0]) _) => a (MADD a (MOVDconst [1]) x) => (ADD a x) (MADD a (MOVDconst [c]) x) && isPowerOfTwo64(c) => (ADDshiftLL a x [log64(c)]) (MADD a (MOVDconst [c]) x) && isPowerOfTwo64(c-1) && c>=3 => (ADD a (ADDshiftLL x x [log64(c-1)])) (MADD a (MOVDconst [c]) x) && isPowerOfTwo64(c+1) && c>=7 => (SUB a (SUBshiftLL x x [log64(c+1)])) (MADD a (MOVDconst [c]) x) && c%3 == 0 && isPowerOfTwo64(c/3) => (SUBshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) (MADD a (MOVDconst [c]) x) && c%5 == 0 && isPowerOfTwo64(c/5) => (ADDshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) (MADD a (MOVDconst [c]) x) && c%7 == 0 && isPowerOfTwo64(c/7) => (SUBshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) (MADD a (MOVDconst [c]) x) && c%9 == 0 && isPowerOfTwo64(c/9) => (ADDshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) (MADDW a x (MOVDconst [c])) && int32(c)==-1 => (SUB a x) (MADDW a _ (MOVDconst [c])) && int32(c)==0 => a (MADDW a x (MOVDconst [c])) && int32(c)==1 => (ADD a x) (MADDW a x (MOVDconst [c])) && isPowerOfTwo64(c) => (ADDshiftLL a x [log64(c)]) (MADDW a x (MOVDconst [c])) && isPowerOfTwo64(c-1) && int32(c)>=3 => (ADD a (ADDshiftLL x x [log64(c-1)])) (MADDW a x (MOVDconst [c])) && isPowerOfTwo64(c+1) && int32(c)>=7 => (SUB a (SUBshiftLL x x [log64(c+1)])) (MADDW a x (MOVDconst [c])) && c%3 == 0 && isPowerOfTwo64(c/3) && is32Bit(c) => (SUBshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) (MADDW a x (MOVDconst [c])) && c%5 == 0 && isPowerOfTwo64(c/5) && is32Bit(c) => (ADDshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) (MADDW a x (MOVDconst [c])) && c%7 == 0 && isPowerOfTwo64(c/7) && is32Bit(c) => (SUBshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) (MADDW a x (MOVDconst [c])) && c%9 == 0 && isPowerOfTwo64(c/9) && is32Bit(c) => (ADDshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) (MADDW a (MOVDconst [c]) x) && int32(c)==-1 => (SUB a x) (MADDW a (MOVDconst [c]) _) && int32(c)==0 => a (MADDW a (MOVDconst [c]) x) && int32(c)==1 => (ADD a x) (MADDW a (MOVDconst [c]) x) && isPowerOfTwo64(c) => (ADDshiftLL a x [log64(c)]) (MADDW a (MOVDconst [c]) x) && isPowerOfTwo64(c-1) && int32(c)>=3 => (ADD a (ADDshiftLL x x [log64(c-1)])) (MADDW a (MOVDconst [c]) x) && isPowerOfTwo64(c+1) && int32(c)>=7 => (SUB a (SUBshiftLL x x [log64(c+1)])) (MADDW a (MOVDconst [c]) x) && c%3 == 0 && isPowerOfTwo64(c/3) && is32Bit(c) => (SUBshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) (MADDW a (MOVDconst [c]) x) && c%5 == 0 && isPowerOfTwo64(c/5) && is32Bit(c) => (ADDshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) (MADDW a (MOVDconst [c]) x) && c%7 == 0 && isPowerOfTwo64(c/7) && is32Bit(c) => (SUBshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) (MADDW a (MOVDconst [c]) x) && c%9 == 0 && isPowerOfTwo64(c/9) && is32Bit(c) => (ADDshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) (MSUB a x (MOVDconst [-1])) => (ADD a x) (MSUB a _ (MOVDconst [0])) => a (MSUB a x (MOVDconst [1])) => (SUB a x) (MSUB a x (MOVDconst [c])) && isPowerOfTwo64(c) => (SUBshiftLL a x [log64(c)]) (MSUB a x (MOVDconst [c])) && isPowerOfTwo64(c-1) && c>=3 => (SUB a (ADDshiftLL x x [log64(c-1)])) (MSUB a x (MOVDconst [c])) && isPowerOfTwo64(c+1) && c>=7 => (ADD a (SUBshiftLL x x [log64(c+1)])) (MSUB a x (MOVDconst [c])) && c%3 == 0 && isPowerOfTwo64(c/3) => (ADDshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) (MSUB a x (MOVDconst [c])) && c%5 == 0 && isPowerOfTwo64(c/5) => (SUBshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) (MSUB a x (MOVDconst [c])) && c%7 == 0 && isPowerOfTwo64(c/7) => (ADDshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) (MSUB a x (MOVDconst [c])) && c%9 == 0 && isPowerOfTwo64(c/9) => (SUBshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) (MSUB a (MOVDconst [-1]) x) => (ADD a x) (MSUB a (MOVDconst [0]) _) => a (MSUB a (MOVDconst [1]) x) => (SUB a x) (MSUB a (MOVDconst [c]) x) && isPowerOfTwo64(c) => (SUBshiftLL a x [log64(c)]) (MSUB a (MOVDconst [c]) x) && isPowerOfTwo64(c-1) && c>=3 => (SUB a (ADDshiftLL x x [log64(c-1)])) (MSUB a (MOVDconst [c]) x) && isPowerOfTwo64(c+1) && c>=7 => (ADD a (SUBshiftLL x x [log64(c+1)])) (MSUB a (MOVDconst [c]) x) && c%3 == 0 && isPowerOfTwo64(c/3) => (ADDshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) (MSUB a (MOVDconst [c]) x) && c%5 == 0 && isPowerOfTwo64(c/5) => (SUBshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) (MSUB a (MOVDconst [c]) x) && c%7 == 0 && isPowerOfTwo64(c/7) => (ADDshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) (MSUB a (MOVDconst [c]) x) && c%9 == 0 && isPowerOfTwo64(c/9) => (SUBshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) (MSUBW a x (MOVDconst [c])) && int32(c)==-1 => (ADD a x) (MSUBW a _ (MOVDconst [c])) && int32(c)==0 => a (MSUBW a x (MOVDconst [c])) && int32(c)==1 => (SUB a x) (MSUBW a x (MOVDconst [c])) && isPowerOfTwo64(c) => (SUBshiftLL a x [log64(c)]) (MSUBW a x (MOVDconst [c])) && isPowerOfTwo64(c-1) && int32(c)>=3 => (SUB a (ADDshiftLL x x [log64(c-1)])) (MSUBW a x (MOVDconst [c])) && isPowerOfTwo64(c+1) && int32(c)>=7 => (ADD a (SUBshiftLL x x [log64(c+1)])) (MSUBW a x (MOVDconst [c])) && c%3 == 0 && isPowerOfTwo64(c/3) && is32Bit(c) => (ADDshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) (MSUBW a x (MOVDconst [c])) && c%5 == 0 && isPowerOfTwo64(c/5) && is32Bit(c) => (SUBshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) (MSUBW a x (MOVDconst [c])) && c%7 == 0 && isPowerOfTwo64(c/7) && is32Bit(c) => (ADDshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) (MSUBW a x (MOVDconst [c])) && c%9 == 0 && isPowerOfTwo64(c/9) && is32Bit(c) => (SUBshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) (MSUBW a (MOVDconst [c]) x) && int32(c)==-1 => (ADD a x) (MSUBW a (MOVDconst [c]) _) && int32(c)==0 => a (MSUBW a (MOVDconst [c]) x) && int32(c)==1 => (SUB a x) (MSUBW a (MOVDconst [c]) x) && isPowerOfTwo64(c) => (SUBshiftLL a x [log64(c)]) (MSUBW a (MOVDconst [c]) x) && isPowerOfTwo64(c-1) && int32(c)>=3 => (SUB a (ADDshiftLL x x [log64(c-1)])) (MSUBW a (MOVDconst [c]) x) && isPowerOfTwo64(c+1) && int32(c)>=7 => (ADD a (SUBshiftLL x x [log64(c+1)])) (MSUBW a (MOVDconst [c]) x) && c%3 == 0 && isPowerOfTwo64(c/3) && is32Bit(c) => (ADDshiftLL a (SUBshiftLL x x [2]) [log64(c/3)]) (MSUBW a (MOVDconst [c]) x) && c%5 == 0 && isPowerOfTwo64(c/5) && is32Bit(c) => (SUBshiftLL a (ADDshiftLL x x [2]) [log64(c/5)]) (MSUBW a (MOVDconst [c]) x) && c%7 == 0 && isPowerOfTwo64(c/7) && is32Bit(c) => (ADDshiftLL a (SUBshiftLL x x [3]) [log64(c/7)]) (MSUBW a (MOVDconst [c]) x) && c%9 == 0 && isPowerOfTwo64(c/9) && is32Bit(c) => (SUBshiftLL a (ADDshiftLL x x [3]) [log64(c/9)]) // div by constant (UDIV x (MOVDconst [1])) => x (UDIV x (MOVDconst [c])) && isPowerOfTwo64(c) => (SRLconst [log64(c)] x) (UDIVW x (MOVDconst [c])) && uint32(c)==1 => x (UDIVW x (MOVDconst [c])) && isPowerOfTwo64(c) && is32Bit(c) => (SRLconst [log64(c)] x) (UMOD _ (MOVDconst [1])) => (MOVDconst [0]) (UMOD x (MOVDconst [c])) && isPowerOfTwo64(c) => (ANDconst [c-1] x) (UMODW _ (MOVDconst [c])) && uint32(c)==1 => (MOVDconst [0]) (UMODW x (MOVDconst [c])) && isPowerOfTwo64(c) && is32Bit(c) => (ANDconst [c-1] x) // generic simplifications (ADD x (NEG y)) => (SUB x y) (SUB x x) => (MOVDconst [0]) (AND x x) => x (OR x x) => x (XOR x x) => (MOVDconst [0]) (BIC x x) => (MOVDconst [0]) (EON x x) => (MOVDconst [-1]) (ORN x x) => (MOVDconst [-1]) (AND x (MVN y)) => (BIC x y) (XOR x (MVN y)) => (EON x y) (OR x (MVN y)) => (ORN x y) (MVN (XOR x y)) => (EON x y) (NEG (NEG x)) => x (CSEL [cc] (MOVDconst [-1]) (MOVDconst [0]) flag) => (CSETM [cc] flag) (CSEL [cc] (MOVDconst [0]) (MOVDconst [-1]) flag) => (CSETM [arm64Negate(cc)] flag) (CSEL [cc] x (MOVDconst [0]) flag) => (CSEL0 [cc] x flag) (CSEL [cc] (MOVDconst [0]) y flag) => (CSEL0 [arm64Negate(cc)] y flag) (CSEL [cc] x (ADDconst [1] a) flag) => (CSINC [cc] x a flag) (CSEL [cc] (ADDconst [1] a) x flag) => (CSINC [arm64Negate(cc)] x a flag) (CSEL [cc] x (MVN a) flag) => (CSINV [cc] x a flag) (CSEL [cc] (MVN a) x flag) => (CSINV [arm64Negate(cc)] x a flag) (CSEL [cc] x (NEG a) flag) => (CSNEG [cc] x a flag) (CSEL [cc] (NEG a) x flag) => (CSNEG [arm64Negate(cc)] x a flag) (SUB x (SUB y z)) => (SUB (ADD x z) y) (SUB (SUB x y) z) => (SUB x (ADD y z)) // remove redundant *const ops (ADDconst [0] x) => x (SUBconst [0] x) => x (ANDconst [0] _) => (MOVDconst [0]) (ANDconst [-1] x) => x (ORconst [0] x) => x (ORconst [-1] _) => (MOVDconst [-1]) (XORconst [0] x) => x (XORconst [-1] x) => (MVN x) // generic constant folding (ADDconst [c] (MOVDconst [d])) => (MOVDconst [c+d]) (ADDconst [c] (ADDconst [d] x)) => (ADDconst [c+d] x) (ADDconst [c] (SUBconst [d] x)) => (ADDconst [c-d] x) (SUBconst [c] (MOVDconst [d])) => (MOVDconst [d-c]) (SUBconst [c] (SUBconst [d] x)) => (ADDconst [-c-d] x) (SUBconst [c] (ADDconst [d] x)) => (ADDconst [-c+d] x) (SLLconst [c] (MOVDconst [d])) => (MOVDconst [d< (MOVDconst [int64(uint64(d)>>uint64(c))]) (SRAconst [c] (MOVDconst [d])) => (MOVDconst [d>>uint64(c)]) (MUL (MOVDconst [c]) (MOVDconst [d])) => (MOVDconst [c*d]) (MULW (MOVDconst [c]) (MOVDconst [d])) => (MOVDconst [int64(int32(c)*int32(d))]) (MNEG (MOVDconst [c]) (MOVDconst [d])) => (MOVDconst [-c*d]) (MNEGW (MOVDconst [c]) (MOVDconst [d])) => (MOVDconst [-int64(int32(c)*int32(d))]) (MADD (MOVDconst [c]) x y) => (ADDconst [c] (MUL x y)) (MADDW (MOVDconst [c]) x y) => (ADDconst [c] (MULW x y)) (MSUB (MOVDconst [c]) x y) => (ADDconst [c] (MNEG x y)) (MSUBW (MOVDconst [c]) x y) => (ADDconst [c] (MNEGW x y)) (MADD a (MOVDconst [c]) (MOVDconst [d])) => (ADDconst [c*d] a) (MADDW a (MOVDconst [c]) (MOVDconst [d])) => (ADDconst [int64(int32(c)*int32(d))] a) (MSUB a (MOVDconst [c]) (MOVDconst [d])) => (SUBconst [c*d] a) (MSUBW a (MOVDconst [c]) (MOVDconst [d])) => (SUBconst [int64(int32(c)*int32(d))] a) (DIV (MOVDconst [c]) (MOVDconst [d])) && d != 0 => (MOVDconst [c/d]) (UDIV (MOVDconst [c]) (MOVDconst [d])) && d != 0 => (MOVDconst [int64(uint64(c)/uint64(d))]) (DIVW (MOVDconst [c]) (MOVDconst [d])) && d != 0 => (MOVDconst [int64(int32(c)/int32(d))]) (UDIVW (MOVDconst [c]) (MOVDconst [d])) && d != 0 => (MOVDconst [int64(uint32(c)/uint32(d))]) (MOD (MOVDconst [c]) (MOVDconst [d])) && d != 0 => (MOVDconst [c%d]) (UMOD (MOVDconst [c]) (MOVDconst [d])) && d != 0 => (MOVDconst [int64(uint64(c)%uint64(d))]) (MODW (MOVDconst [c]) (MOVDconst [d])) && d != 0 => (MOVDconst [int64(int32(c)%int32(d))]) (UMODW (MOVDconst [c]) (MOVDconst [d])) && d != 0 => (MOVDconst [int64(uint32(c)%uint32(d))]) (ANDconst [c] (MOVDconst [d])) => (MOVDconst [c&d]) (ANDconst [c] (ANDconst [d] x)) => (ANDconst [c&d] x) (ANDconst [c] (MOVWUreg x)) => (ANDconst [c&(1<<32-1)] x) (ANDconst [c] (MOVHUreg x)) => (ANDconst [c&(1<<16-1)] x) (ANDconst [c] (MOVBUreg x)) => (ANDconst [c&(1<<8-1)] x) (MOVWUreg (ANDconst [c] x)) => (ANDconst [c&(1<<32-1)] x) (MOVHUreg (ANDconst [c] x)) => (ANDconst [c&(1<<16-1)] x) (MOVBUreg (ANDconst [c] x)) => (ANDconst [c&(1<<8-1)] x) (ORconst [c] (MOVDconst [d])) => (MOVDconst [c|d]) (ORconst [c] (ORconst [d] x)) => (ORconst [c|d] x) (XORconst [c] (MOVDconst [d])) => (MOVDconst [c^d]) (XORconst [c] (XORconst [d] x)) => (XORconst [c^d] x) (MVN (MOVDconst [c])) => (MOVDconst [^c]) (NEG (MOVDconst [c])) => (MOVDconst [-c]) (MOVBreg (MOVDconst [c])) => (MOVDconst [int64(int8(c))]) (MOVBUreg (MOVDconst [c])) => (MOVDconst [int64(uint8(c))]) (MOVHreg (MOVDconst [c])) => (MOVDconst [int64(int16(c))]) (MOVHUreg (MOVDconst [c])) => (MOVDconst [int64(uint16(c))]) (MOVWreg (MOVDconst [c])) => (MOVDconst [int64(int32(c))]) (MOVWUreg (MOVDconst [c])) => (MOVDconst [int64(uint32(c))]) (MOVDreg (MOVDconst [c])) => (MOVDconst [c]) // constant comparisons (CMPconst (MOVDconst [x]) [y]) => (FlagConstant [subFlags64(x,y)]) (CMPWconst (MOVDconst [x]) [y]) => (FlagConstant [subFlags32(int32(x),y)]) (TSTconst (MOVDconst [x]) [y]) => (FlagConstant [logicFlags64(x&y)]) (TSTWconst (MOVDconst [x]) [y]) => (FlagConstant [logicFlags32(int32(x)&y)]) (CMNconst (MOVDconst [x]) [y]) => (FlagConstant [addFlags64(x,y)]) (CMNWconst (MOVDconst [x]) [y]) => (FlagConstant [addFlags32(int32(x),y)]) // other known comparisons (CMPconst (MOVBUreg _) [c]) && 0xff < c => (FlagConstant [subFlags64(0,1)]) (CMPconst (MOVHUreg _) [c]) && 0xffff < c => (FlagConstant [subFlags64(0,1)]) (CMPconst (MOVWUreg _) [c]) && 0xffffffff < c => (FlagConstant [subFlags64(0,1)]) (CMPconst (ANDconst _ [m]) [n]) && 0 <= m && m < n => (FlagConstant [subFlags64(0,1)]) (CMPconst (SRLconst _ [c]) [n]) && 0 <= n && 0 < c && c <= 63 && (1< (FlagConstant [subFlags64(0,1)]) (CMPWconst (MOVBUreg _) [c]) && 0xff < c => (FlagConstant [subFlags64(0,1)]) (CMPWconst (MOVHUreg _) [c]) && 0xffff < c => (FlagConstant [subFlags64(0,1)]) // absorb flag constants into branches (EQ (FlagConstant [fc]) yes no) && fc.eq() => (First yes no) (EQ (FlagConstant [fc]) yes no) && !fc.eq() => (First no yes) (NE (FlagConstant [fc]) yes no) && fc.ne() => (First yes no) (NE (FlagConstant [fc]) yes no) && !fc.ne() => (First no yes) (LT (FlagConstant [fc]) yes no) && fc.lt() => (First yes no) (LT (FlagConstant [fc]) yes no) && !fc.lt() => (First no yes) (LE (FlagConstant [fc]) yes no) && fc.le() => (First yes no) (LE (FlagConstant [fc]) yes no) && !fc.le() => (First no yes) (GT (FlagConstant [fc]) yes no) && fc.gt() => (First yes no) (GT (FlagConstant [fc]) yes no) && !fc.gt() => (First no yes) (GE (FlagConstant [fc]) yes no) && fc.ge() => (First yes no) (GE (FlagConstant [fc]) yes no) && !fc.ge() => (First no yes) (ULT (FlagConstant [fc]) yes no) && fc.ult() => (First yes no) (ULT (FlagConstant [fc]) yes no) && !fc.ult() => (First no yes) (ULE (FlagConstant [fc]) yes no) && fc.ule() => (First yes no) (ULE (FlagConstant [fc]) yes no) && !fc.ule() => (First no yes) (UGT (FlagConstant [fc]) yes no) && fc.ugt() => (First yes no) (UGT (FlagConstant [fc]) yes no) && !fc.ugt() => (First no yes) (UGE (FlagConstant [fc]) yes no) && fc.uge() => (First yes no) (UGE (FlagConstant [fc]) yes no) && !fc.uge() => (First no yes) (LTnoov (FlagConstant [fc]) yes no) && fc.ltNoov() => (First yes no) (LTnoov (FlagConstant [fc]) yes no) && !fc.ltNoov() => (First no yes) (LEnoov (FlagConstant [fc]) yes no) && fc.leNoov() => (First yes no) (LEnoov (FlagConstant [fc]) yes no) && !fc.leNoov() => (First no yes) (GTnoov (FlagConstant [fc]) yes no) && fc.gtNoov() => (First yes no) (GTnoov (FlagConstant [fc]) yes no) && !fc.gtNoov() => (First no yes) (GEnoov (FlagConstant [fc]) yes no) && fc.geNoov() => (First yes no) (GEnoov (FlagConstant [fc]) yes no) && !fc.geNoov() => (First no yes) (Z (MOVDconst [0]) yes no) => (First yes no) (Z (MOVDconst [c]) yes no) && c != 0 => (First no yes) (NZ (MOVDconst [0]) yes no) => (First no yes) (NZ (MOVDconst [c]) yes no) && c != 0 => (First yes no) (ZW (MOVDconst [c]) yes no) && int32(c) == 0 => (First yes no) (ZW (MOVDconst [c]) yes no) && int32(c) != 0 => (First no yes) (NZW (MOVDconst [c]) yes no) && int32(c) == 0 => (First no yes) (NZW (MOVDconst [c]) yes no) && int32(c) != 0 => (First yes no) // absorb InvertFlags into branches (LT (InvertFlags cmp) yes no) => (GT cmp yes no) (GT (InvertFlags cmp) yes no) => (LT cmp yes no) (LE (InvertFlags cmp) yes no) => (GE cmp yes no) (GE (InvertFlags cmp) yes no) => (LE cmp yes no) (ULT (InvertFlags cmp) yes no) => (UGT cmp yes no) (UGT (InvertFlags cmp) yes no) => (ULT cmp yes no) (ULE (InvertFlags cmp) yes no) => (UGE cmp yes no) (UGE (InvertFlags cmp) yes no) => (ULE cmp yes no) (EQ (InvertFlags cmp) yes no) => (EQ cmp yes no) (NE (InvertFlags cmp) yes no) => (NE cmp yes no) (FLT (InvertFlags cmp) yes no) => (FGT cmp yes no) (FGT (InvertFlags cmp) yes no) => (FLT cmp yes no) (FLE (InvertFlags cmp) yes no) => (FGE cmp yes no) (FGE (InvertFlags cmp) yes no) => (FLE cmp yes no) (LTnoov (InvertFlags cmp) yes no) => (GTnoov cmp yes no) (GEnoov (InvertFlags cmp) yes no) => (LEnoov cmp yes no) (LEnoov (InvertFlags cmp) yes no) => (GEnoov cmp yes no) (GTnoov (InvertFlags cmp) yes no) => (LTnoov cmp yes no) // absorb InvertFlags into conditional instructions (CSEL [cc] x y (InvertFlags cmp)) => (CSEL [arm64Invert(cc)] x y cmp) (CSEL0 [cc] x (InvertFlags cmp)) => (CSEL0 [arm64Invert(cc)] x cmp) (CSETM [cc] (InvertFlags cmp)) => (CSETM [arm64Invert(cc)] cmp) (CSINC [cc] x y (InvertFlags cmp)) => (CSINC [arm64Invert(cc)] x y cmp) (CSINV [cc] x y (InvertFlags cmp)) => (CSINV [arm64Invert(cc)] x y cmp) (CSNEG [cc] x y (InvertFlags cmp)) => (CSNEG [arm64Invert(cc)] x y cmp) // absorb flag constants into boolean values (Equal (FlagConstant [fc])) => (MOVDconst [b2i(fc.eq())]) (NotEqual (FlagConstant [fc])) => (MOVDconst [b2i(fc.ne())]) (LessThan (FlagConstant [fc])) => (MOVDconst [b2i(fc.lt())]) (LessThanU (FlagConstant [fc])) => (MOVDconst [b2i(fc.ult())]) (LessEqual (FlagConstant [fc])) => (MOVDconst [b2i(fc.le())]) (LessEqualU (FlagConstant [fc])) => (MOVDconst [b2i(fc.ule())]) (GreaterThan (FlagConstant [fc])) => (MOVDconst [b2i(fc.gt())]) (GreaterThanU (FlagConstant [fc])) => (MOVDconst [b2i(fc.ugt())]) (GreaterEqual (FlagConstant [fc])) => (MOVDconst [b2i(fc.ge())]) (GreaterEqualU (FlagConstant [fc])) => (MOVDconst [b2i(fc.uge())]) // absorb InvertFlags into boolean values (Equal (InvertFlags x)) => (Equal x) (NotEqual (InvertFlags x)) => (NotEqual x) (LessThan (InvertFlags x)) => (GreaterThan x) (LessThanU (InvertFlags x)) => (GreaterThanU x) (GreaterThan (InvertFlags x)) => (LessThan x) (GreaterThanU (InvertFlags x)) => (LessThanU x) (LessEqual (InvertFlags x)) => (GreaterEqual x) (LessEqualU (InvertFlags x)) => (GreaterEqualU x) (GreaterEqual (InvertFlags x)) => (LessEqual x) (GreaterEqualU (InvertFlags x)) => (LessEqualU x) (LessThanF (InvertFlags x)) => (GreaterThanF x) (LessEqualF (InvertFlags x)) => (GreaterEqualF x) (GreaterThanF (InvertFlags x)) => (LessThanF x) (GreaterEqualF (InvertFlags x)) => (LessEqualF x) // Boolean-generating instructions always // zero upper bit of the register; no need to zero-extend (MOVBUreg x) && x.Type.IsBoolean() => (MOVDreg x) // absorb flag constants into conditional instructions (CSEL [cc] x _ flag) && ccARM64Eval(cc, flag) > 0 => x (CSEL [cc] _ y flag) && ccARM64Eval(cc, flag) < 0 => y (CSEL0 [cc] x flag) && ccARM64Eval(cc, flag) > 0 => x (CSEL0 [cc] _ flag) && ccARM64Eval(cc, flag) < 0 => (MOVDconst [0]) (CSNEG [cc] x _ flag) && ccARM64Eval(cc, flag) > 0 => x (CSNEG [cc] _ y flag) && ccARM64Eval(cc, flag) < 0 => (NEG y) (CSINV [cc] x _ flag) && ccARM64Eval(cc, flag) > 0 => x (CSINV [cc] _ y flag) && ccARM64Eval(cc, flag) < 0 => (Not y) (CSINC [cc] x _ flag) && ccARM64Eval(cc, flag) > 0 => x (CSINC [cc] _ y flag) && ccARM64Eval(cc, flag) < 0 => (ADDconst [1] y) (CSETM [cc] flag) && ccARM64Eval(cc, flag) > 0 => (MOVDconst [-1]) (CSETM [cc] flag) && ccARM64Eval(cc, flag) < 0 => (MOVDconst [0]) // absorb flags back into boolean CSEL (CSEL [cc] x y (CMPWconst [0] boolval)) && cc == OpARM64NotEqual && flagArg(boolval) != nil => (CSEL [boolval.Op] x y flagArg(boolval)) (CSEL [cc] x y (CMPWconst [0] boolval)) && cc == OpARM64Equal && flagArg(boolval) != nil => (CSEL [arm64Negate(boolval.Op)] x y flagArg(boolval)) (CSEL0 [cc] x (CMPWconst [0] boolval)) && cc == OpARM64NotEqual && flagArg(boolval) != nil => (CSEL0 [boolval.Op] x flagArg(boolval)) (CSEL0 [cc] x (CMPWconst [0] boolval)) && cc == OpARM64Equal && flagArg(boolval) != nil => (CSEL0 [arm64Negate(boolval.Op)] x flagArg(boolval)) // absorb shifts into ops (NEG x:(SLLconst [c] y)) && clobberIfDead(x) => (NEGshiftLL [c] y) (NEG x:(SRLconst [c] y)) && clobberIfDead(x) => (NEGshiftRL [c] y) (NEG x:(SRAconst [c] y)) && clobberIfDead(x) => (NEGshiftRA [c] y) (MVN x:(SLLconst [c] y)) && clobberIfDead(x) => (MVNshiftLL [c] y) (MVN x:(SRLconst [c] y)) && clobberIfDead(x) => (MVNshiftRL [c] y) (MVN x:(SRAconst [c] y)) && clobberIfDead(x) => (MVNshiftRA [c] y) (MVN x:(RORconst [c] y)) && clobberIfDead(x) => (MVNshiftRO [c] y) (ADD x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (ADDshiftLL x0 y [c]) (ADD x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (ADDshiftRL x0 y [c]) (ADD x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (ADDshiftRA x0 y [c]) (SUB x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (SUBshiftLL x0 y [c]) (SUB x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (SUBshiftRL x0 y [c]) (SUB x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (SUBshiftRA x0 y [c]) (AND x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (ANDshiftLL x0 y [c]) (AND x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (ANDshiftRL x0 y [c]) (AND x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (ANDshiftRA x0 y [c]) (AND x0 x1:(RORconst [c] y)) && clobberIfDead(x1) => (ANDshiftRO x0 y [c]) (OR x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (ORshiftLL x0 y [c]) // useful for combined load (OR x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (ORshiftRL x0 y [c]) (OR x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (ORshiftRA x0 y [c]) (OR x0 x1:(RORconst [c] y)) && clobberIfDead(x1) => (ORshiftRO x0 y [c]) (XOR x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (XORshiftLL x0 y [c]) (XOR x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (XORshiftRL x0 y [c]) (XOR x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (XORshiftRA x0 y [c]) (XOR x0 x1:(RORconst [c] y)) && clobberIfDead(x1) => (XORshiftRO x0 y [c]) (BIC x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (BICshiftLL x0 y [c]) (BIC x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (BICshiftRL x0 y [c]) (BIC x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (BICshiftRA x0 y [c]) (BIC x0 x1:(RORconst [c] y)) && clobberIfDead(x1) => (BICshiftRO x0 y [c]) (ORN x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (ORNshiftLL x0 y [c]) (ORN x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (ORNshiftRL x0 y [c]) (ORN x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (ORNshiftRA x0 y [c]) (ORN x0 x1:(RORconst [c] y)) && clobberIfDead(x1) => (ORNshiftRO x0 y [c]) (EON x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (EONshiftLL x0 y [c]) (EON x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (EONshiftRL x0 y [c]) (EON x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (EONshiftRA x0 y [c]) (EON x0 x1:(RORconst [c] y)) && clobberIfDead(x1) => (EONshiftRO x0 y [c]) (CMP x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (CMPshiftLL x0 y [c]) (CMP x0:(SLLconst [c] y) x1) && clobberIfDead(x0) => (InvertFlags (CMPshiftLL x1 y [c])) (CMP x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (CMPshiftRL x0 y [c]) (CMP x0:(SRLconst [c] y) x1) && clobberIfDead(x0) => (InvertFlags (CMPshiftRL x1 y [c])) (CMP x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (CMPshiftRA x0 y [c]) (CMP x0:(SRAconst [c] y) x1) && clobberIfDead(x0) => (InvertFlags (CMPshiftRA x1 y [c])) (CMN x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (CMNshiftLL x0 y [c]) (CMN x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (CMNshiftRL x0 y [c]) (CMN x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (CMNshiftRA x0 y [c]) (TST x0 x1:(SLLconst [c] y)) && clobberIfDead(x1) => (TSTshiftLL x0 y [c]) (TST x0 x1:(SRLconst [c] y)) && clobberIfDead(x1) => (TSTshiftRL x0 y [c]) (TST x0 x1:(SRAconst [c] y)) && clobberIfDead(x1) => (TSTshiftRA x0 y [c]) (TST x0 x1:(RORconst [c] y)) && clobberIfDead(x1) => (TSTshiftRO x0 y [c]) // prefer *const ops to *shift ops (ADDshiftLL (MOVDconst [c]) x [d]) => (ADDconst [c] (SLLconst x [d])) (ADDshiftRL (MOVDconst [c]) x [d]) => (ADDconst [c] (SRLconst x [d])) (ADDshiftRA (MOVDconst [c]) x [d]) => (ADDconst [c] (SRAconst x [d])) (ANDshiftLL (MOVDconst [c]) x [d]) => (ANDconst [c] (SLLconst x [d])) (ANDshiftRL (MOVDconst [c]) x [d]) => (ANDconst [c] (SRLconst x [d])) (ANDshiftRA (MOVDconst [c]) x [d]) => (ANDconst [c] (SRAconst x [d])) (ANDshiftRO (MOVDconst [c]) x [d]) => (ANDconst [c] (RORconst x [d])) (ORshiftLL (MOVDconst [c]) x [d]) => (ORconst [c] (SLLconst x [d])) (ORshiftRL (MOVDconst [c]) x [d]) => (ORconst [c] (SRLconst x [d])) (ORshiftRA (MOVDconst [c]) x [d]) => (ORconst [c] (SRAconst x [d])) (ORshiftRO (MOVDconst [c]) x [d]) => (ORconst [c] (RORconst x [d])) (XORshiftLL (MOVDconst [c]) x [d]) => (XORconst [c] (SLLconst x [d])) (XORshiftRL (MOVDconst [c]) x [d]) => (XORconst [c] (SRLconst x [d])) (XORshiftRA (MOVDconst [c]) x [d]) => (XORconst [c] (SRAconst x [d])) (XORshiftRO (MOVDconst [c]) x [d]) => (XORconst [c] (RORconst x [d])) (CMPshiftLL (MOVDconst [c]) x [d]) => (InvertFlags (CMPconst [c] (SLLconst x [d]))) (CMPshiftRL (MOVDconst [c]) x [d]) => (InvertFlags (CMPconst [c] (SRLconst x [d]))) (CMPshiftRA (MOVDconst [c]) x [d]) => (InvertFlags (CMPconst [c] (SRAconst x [d]))) (CMNshiftLL (MOVDconst [c]) x [d]) => (CMNconst [c] (SLLconst x [d])) (CMNshiftRL (MOVDconst [c]) x [d]) => (CMNconst [c] (SRLconst x [d])) (CMNshiftRA (MOVDconst [c]) x [d]) => (CMNconst [c] (SRAconst x [d])) (TSTshiftLL (MOVDconst [c]) x [d]) => (TSTconst [c] (SLLconst x [d])) (TSTshiftRL (MOVDconst [c]) x [d]) => (TSTconst [c] (SRLconst x [d])) (TSTshiftRA (MOVDconst [c]) x [d]) => (TSTconst [c] (SRAconst x [d])) (TSTshiftRO (MOVDconst [c]) x [d]) => (TSTconst [c] (RORconst x [d])) // constant folding in *shift ops (MVNshiftLL (MOVDconst [c]) [d]) => (MOVDconst [^int64(uint64(c)< (MOVDconst [^int64(uint64(c)>>uint64(d))]) (MVNshiftRA (MOVDconst [c]) [d]) => (MOVDconst [^(c>>uint64(d))]) (MVNshiftRO (MOVDconst [c]) [d]) => (MOVDconst [^rotateRight64(c, d)]) (NEGshiftLL (MOVDconst [c]) [d]) => (MOVDconst [-int64(uint64(c)< (MOVDconst [-int64(uint64(c)>>uint64(d))]) (NEGshiftRA (MOVDconst [c]) [d]) => (MOVDconst [-(c>>uint64(d))]) (ADDshiftLL x (MOVDconst [c]) [d]) => (ADDconst x [int64(uint64(c)< (ADDconst x [int64(uint64(c)>>uint64(d))]) (ADDshiftRA x (MOVDconst [c]) [d]) => (ADDconst x [c>>uint64(d)]) (SUBshiftLL x (MOVDconst [c]) [d]) => (SUBconst x [int64(uint64(c)< (SUBconst x [int64(uint64(c)>>uint64(d))]) (SUBshiftRA x (MOVDconst [c]) [d]) => (SUBconst x [c>>uint64(d)]) (ANDshiftLL x (MOVDconst [c]) [d]) => (ANDconst x [int64(uint64(c)< (ANDconst x [int64(uint64(c)>>uint64(d))]) (ANDshiftRA x (MOVDconst [c]) [d]) => (ANDconst x [c>>uint64(d)]) (ANDshiftRO x (MOVDconst [c]) [d]) => (ANDconst x [rotateRight64(c, d)]) (ORshiftLL x (MOVDconst [c]) [d]) => (ORconst x [int64(uint64(c)< (ORconst x [int64(uint64(c)>>uint64(d))]) (ORshiftRA x (MOVDconst [c]) [d]) => (ORconst x [c>>uint64(d)]) (ORshiftRO x (MOVDconst [c]) [d]) => (ORconst x [rotateRight64(c, d)]) (XORshiftLL x (MOVDconst [c]) [d]) => (XORconst x [int64(uint64(c)< (XORconst x [int64(uint64(c)>>uint64(d))]) (XORshiftRA x (MOVDconst [c]) [d]) => (XORconst x [c>>uint64(d)]) (XORshiftRO x (MOVDconst [c]) [d]) => (XORconst x [rotateRight64(c, d)]) (BICshiftLL x (MOVDconst [c]) [d]) => (ANDconst x [^int64(uint64(c)< (ANDconst x [^int64(uint64(c)>>uint64(d))]) (BICshiftRA x (MOVDconst [c]) [d]) => (ANDconst x [^(c>>uint64(d))]) (BICshiftRO x (MOVDconst [c]) [d]) => (ANDconst x [^rotateRight64(c, d)]) (ORNshiftLL x (MOVDconst [c]) [d]) => (ORconst x [^int64(uint64(c)< (ORconst x [^int64(uint64(c)>>uint64(d))]) (ORNshiftRA x (MOVDconst [c]) [d]) => (ORconst x [^(c>>uint64(d))]) (ORNshiftRO x (MOVDconst [c]) [d]) => (ORconst x [^rotateRight64(c, d)]) (EONshiftLL x (MOVDconst [c]) [d]) => (XORconst x [^int64(uint64(c)< (XORconst x [^int64(uint64(c)>>uint64(d))]) (EONshiftRA x (MOVDconst [c]) [d]) => (XORconst x [^(c>>uint64(d))]) (EONshiftRO x (MOVDconst [c]) [d]) => (XORconst x [^rotateRight64(c, d)]) (CMPshiftLL x (MOVDconst [c]) [d]) => (CMPconst x [int64(uint64(c)< (CMPconst x [int64(uint64(c)>>uint64(d))]) (CMPshiftRA x (MOVDconst [c]) [d]) => (CMPconst x [c>>uint64(d)]) (CMNshiftLL x (MOVDconst [c]) [d]) => (CMNconst x [int64(uint64(c)< (CMNconst x [int64(uint64(c)>>uint64(d))]) (CMNshiftRA x (MOVDconst [c]) [d]) => (CMNconst x [c>>uint64(d)]) (TSTshiftLL x (MOVDconst [c]) [d]) => (TSTconst x [int64(uint64(c)< (TSTconst x [int64(uint64(c)>>uint64(d))]) (TSTshiftRA x (MOVDconst [c]) [d]) => (TSTconst x [c>>uint64(d)]) (TSTshiftRO x (MOVDconst [c]) [d]) => (TSTconst x [rotateRight64(c, d)]) // simplification with *shift ops (SUBshiftLL (SLLconst x [c]) x [c]) => (MOVDconst [0]) (SUBshiftRL (SRLconst x [c]) x [c]) => (MOVDconst [0]) (SUBshiftRA (SRAconst x [c]) x [c]) => (MOVDconst [0]) (ANDshiftLL y:(SLLconst x [c]) x [c]) => y (ANDshiftRL y:(SRLconst x [c]) x [c]) => y (ANDshiftRA y:(SRAconst x [c]) x [c]) => y (ANDshiftRO y:(RORconst x [c]) x [c]) => y (ORshiftLL y:(SLLconst x [c]) x [c]) => y (ORshiftRL y:(SRLconst x [c]) x [c]) => y (ORshiftRA y:(SRAconst x [c]) x [c]) => y (ORshiftRO y:(RORconst x [c]) x [c]) => y (XORshiftLL (SLLconst x [c]) x [c]) => (MOVDconst [0]) (XORshiftRL (SRLconst x [c]) x [c]) => (MOVDconst [0]) (XORshiftRA (SRAconst x [c]) x [c]) => (MOVDconst [0]) (XORshiftRO (RORconst x [c]) x [c]) => (MOVDconst [0]) (BICshiftLL (SLLconst x [c]) x [c]) => (MOVDconst [0]) (BICshiftRL (SRLconst x [c]) x [c]) => (MOVDconst [0]) (BICshiftRA (SRAconst x [c]) x [c]) => (MOVDconst [0]) (BICshiftRO (RORconst x [c]) x [c]) => (MOVDconst [0]) (EONshiftLL (SLLconst x [c]) x [c]) => (MOVDconst [-1]) (EONshiftRL (SRLconst x [c]) x [c]) => (MOVDconst [-1]) (EONshiftRA (SRAconst x [c]) x [c]) => (MOVDconst [-1]) (EONshiftRO (RORconst x [c]) x [c]) => (MOVDconst [-1]) (ORNshiftLL (SLLconst x [c]) x [c]) => (MOVDconst [-1]) (ORNshiftRL (SRLconst x [c]) x [c]) => (MOVDconst [-1]) (ORNshiftRA (SRAconst x [c]) x [c]) => (MOVDconst [-1]) (ORNshiftRO (RORconst x [c]) x [c]) => (MOVDconst [-1]) // Generate rotates with const shift (ADDshiftLL [c] (SRLconst x [64-c]) x) => (RORconst [64-c] x) ( ORshiftLL [c] (SRLconst x [64-c]) x) => (RORconst [64-c] x) (XORshiftLL [c] (SRLconst x [64-c]) x) => (RORconst [64-c] x) (ADDshiftRL [c] (SLLconst x [64-c]) x) => (RORconst [ c] x) ( ORshiftRL [c] (SLLconst x [64-c]) x) => (RORconst [ c] x) (XORshiftRL [c] (SLLconst x [64-c]) x) => (RORconst [ c] x) (ADDshiftLL [c] (UBFX [bfc] x) x) && c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c) => (RORWconst [32-c] x) ( ORshiftLL [c] (UBFX [bfc] x) x) && c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c) => (RORWconst [32-c] x) (XORshiftLL [c] (UBFX [bfc] x) x) && c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c) => (RORWconst [32-c] x) (ADDshiftRL [c] (SLLconst x [32-c]) (MOVWUreg x)) && c < 32 && t.Size() == 4 => (RORWconst [c] x) ( ORshiftRL [c] (SLLconst x [32-c]) (MOVWUreg x)) && c < 32 && t.Size() == 4 => (RORWconst [c] x) (XORshiftRL [c] (SLLconst x [32-c]) (MOVWUreg x)) && c < 32 && t.Size() == 4 => (RORWconst [c] x) (RORconst [c] (RORconst [d] x)) => (RORconst [(c+d)&63] x) (RORWconst [c] (RORWconst [d] x)) => (RORWconst [(c+d)&31] x) // Generate rotates with non-const shift. // These rules match the Go source code like // y &= 63 // x << y | x >> (64-y) // "|" can also be "^" or "+". // As arm64 does not have a ROL instruction, so ROL(x, y) is replaced by ROR(x, -y). ((ADD|OR|XOR) (SLL x (ANDconst [63] y)) (CSEL0 [cc] (SRL x (SUB (MOVDconst [64]) (ANDconst [63] y))) (CMPconst [64] (SUB (MOVDconst [64]) (ANDconst [63] y))))) && cc == OpARM64LessThanU => (ROR x (NEG y)) ((ADD|OR|XOR) (SRL x (ANDconst [63] y)) (CSEL0 [cc] (SLL x (SUB (MOVDconst [64]) (ANDconst [63] y))) (CMPconst [64] (SUB (MOVDconst [64]) (ANDconst [63] y))))) && cc == OpARM64LessThanU => (ROR x y) // These rules match the Go source code like // y &= 31 // x << y | x >> (32-y) // "|" can also be "^" or "+". // As arm64 does not have a ROLW instruction, so ROLW(x, y) is replaced by RORW(x, -y). ((ADD|OR|XOR) (SLL x (ANDconst [31] y)) (CSEL0 [cc] (SRL (MOVWUreg x) (SUB (MOVDconst [32]) (ANDconst [31] y))) (CMPconst [64] (SUB (MOVDconst [32]) (ANDconst [31] y))))) && cc == OpARM64LessThanU => (RORW x (NEG y)) ((ADD|OR|XOR) (SRL (MOVWUreg x) (ANDconst [31] y)) (CSEL0 [cc] (SLL x (SUB (MOVDconst [32]) (ANDconst [31] y))) (CMPconst [64] (SUB (MOVDconst [32]) (ANDconst [31] y))))) && cc == OpARM64LessThanU => (RORW x y) // rev16w | rev16 // ((x>>8) | (x<<8)) => (REV16W x), the type of x is uint16, "|" can also be "^" or "+". ((ADDshiftLL|ORshiftLL|XORshiftLL) [8] (UBFX [armBFAuxInt(8, 8)] x) x) => (REV16W x) // ((x & 0xff00ff00)>>8) | ((x & 0x00ff00ff)<<8), "|" can also be "^" or "+". ((ADDshiftLL|ORshiftLL|XORshiftLL) [8] (UBFX [armBFAuxInt(8, 24)] (ANDconst [c1] x)) (ANDconst [c2] x)) && uint32(c1) == 0xff00ff00 && uint32(c2) == 0x00ff00ff => (REV16W x) // ((x & 0xff00ff00ff00ff00)>>8) | ((x & 0x00ff00ff00ff00ff)<<8), "|" can also be "^" or "+". ((ADDshiftLL|ORshiftLL|XORshiftLL) [8] (SRLconst [8] (ANDconst [c1] x)) (ANDconst [c2] x)) && (uint64(c1) == 0xff00ff00ff00ff00 && uint64(c2) == 0x00ff00ff00ff00ff) => (REV16 x) // ((x & 0xff00ff00)>>8) | ((x & 0x00ff00ff)<<8), "|" can also be "^" or "+". ((ADDshiftLL|ORshiftLL|XORshiftLL) [8] (SRLconst [8] (ANDconst [c1] x)) (ANDconst [c2] x)) && (uint64(c1) == 0xff00ff00 && uint64(c2) == 0x00ff00ff) => (REV16 (ANDconst [0xffffffff] x)) // Extract from reg pair (ADDshiftLL [c] (SRLconst x [64-c]) x2) => (EXTRconst [64-c] x2 x) ( ORshiftLL [c] (SRLconst x [64-c]) x2) => (EXTRconst [64-c] x2 x) (XORshiftLL [c] (SRLconst x [64-c]) x2) => (EXTRconst [64-c] x2 x) (ADDshiftLL [c] (UBFX [bfc] x) x2) && c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c) => (EXTRWconst [32-c] x2 x) ( ORshiftLL [c] (UBFX [bfc] x) x2) && c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c) => (EXTRWconst [32-c] x2 x) (XORshiftLL [c] (UBFX [bfc] x) x2) && c < 32 && t.Size() == 4 && bfc == armBFAuxInt(32-c, c) => (EXTRWconst [32-c] x2 x) // Rewrite special pairs of shifts to AND. // On ARM64 the bitmask can fit into an instruction. (SRLconst [c] (SLLconst [c] x)) && 0 < c && c < 64 => (ANDconst [1< (ANDconst [^(1< (ORconst [c1] x) // If the shift amount is larger than the datasize(32, 16, 8), we can optimize to constant 0. (MOVWUreg (SLLconst [lc] x)) && lc >= 32 => (MOVDconst [0]) (MOVHUreg (SLLconst [lc] x)) && lc >= 16 => (MOVDconst [0]) (MOVBUreg (SLLconst [lc] x)) && lc >= 8 => (MOVDconst [0]) // After zero extension, the upper (64-datasize(32|16|8)) bits are zero, we can optimiza to constant 0. (SRLconst [rc] (MOVWUreg x)) && rc >= 32 => (MOVDconst [0]) (SRLconst [rc] (MOVHUreg x)) && rc >= 16 => (MOVDconst [0]) (SRLconst [rc] (MOVBUreg x)) && rc >= 8 => (MOVDconst [0]) // bitfield ops // sbfiz // (x << lc) >> rc (SRAconst [rc] (SLLconst [lc] x)) && lc > rc => (SBFIZ [armBFAuxInt(lc-rc, 64-lc)] x) // int64(x << lc) (MOVWreg (SLLconst [lc] x)) && lc < 32 => (SBFIZ [armBFAuxInt(lc, 32-lc)] x) (MOVHreg (SLLconst [lc] x)) && lc < 16 => (SBFIZ [armBFAuxInt(lc, 16-lc)] x) (MOVBreg (SLLconst [lc] x)) && lc < 8 => (SBFIZ [armBFAuxInt(lc, 8-lc)] x) // int64(x) << lc (SLLconst [lc] (MOVWreg x)) => (SBFIZ [armBFAuxInt(lc, min(32, 64-lc))] x) (SLLconst [lc] (MOVHreg x)) => (SBFIZ [armBFAuxInt(lc, min(16, 64-lc))] x) (SLLconst [lc] (MOVBreg x)) => (SBFIZ [armBFAuxInt(lc, min(8, 64-lc))] x) // sbfx // (x << lc) >> rc (SRAconst [rc] (SLLconst [lc] x)) && lc <= rc => (SBFX [armBFAuxInt(rc-lc, 64-rc)] x) // int64(x) >> rc (SRAconst [rc] (MOVWreg x)) && rc < 32 => (SBFX [armBFAuxInt(rc, 32-rc)] x) (SRAconst [rc] (MOVHreg x)) && rc < 16 => (SBFX [armBFAuxInt(rc, 16-rc)] x) (SRAconst [rc] (MOVBreg x)) && rc < 8 => (SBFX [armBFAuxInt(rc, 8-rc)] x) // merge sbfx and sign-extension into sbfx (MOVWreg (SBFX [bfc] x)) && bfc.getARM64BFwidth() <= 32 => (SBFX [bfc] x) (MOVHreg (SBFX [bfc] x)) && bfc.getARM64BFwidth() <= 16 => (SBFX [bfc] x) (MOVBreg (SBFX [bfc] x)) && bfc.getARM64BFwidth() <= 8 => (SBFX [bfc] x) // sbfiz/sbfx combinations: merge shifts into bitfield ops (SRAconst [sc] (SBFIZ [bfc] x)) && sc < bfc.getARM64BFlsb() => (SBFIZ [armBFAuxInt(bfc.getARM64BFlsb()-sc, bfc.getARM64BFwidth())] x) (SRAconst [sc] (SBFIZ [bfc] x)) && sc >= bfc.getARM64BFlsb() && sc < bfc.getARM64BFlsb()+bfc.getARM64BFwidth() => (SBFX [armBFAuxInt(sc-bfc.getARM64BFlsb(), bfc.getARM64BFlsb()+bfc.getARM64BFwidth()-sc)] x) // ubfiz // (x << lc) >> rc (SRLconst [rc] (SLLconst [lc] x)) && lc > rc => (UBFIZ [armBFAuxInt(lc-rc, 64-lc)] x) // uint64(x) << lc (SLLconst [lc] (MOVWUreg x)) => (UBFIZ [armBFAuxInt(lc, min(32, 64-lc))] x) (SLLconst [lc] (MOVHUreg x)) => (UBFIZ [armBFAuxInt(lc, min(16, 64-lc))] x) (SLLconst [lc] (MOVBUreg x)) => (UBFIZ [armBFAuxInt(lc, min(8, 64-lc))] x) // uint64(x << lc) (MOVWUreg (SLLconst [lc] x)) && lc < 32 => (UBFIZ [armBFAuxInt(lc, 32-lc)] x) (MOVHUreg (SLLconst [lc] x)) && lc < 16 => (UBFIZ [armBFAuxInt(lc, 16-lc)] x) (MOVBUreg (SLLconst [lc] x)) && lc < 8 => (UBFIZ [armBFAuxInt(lc, 8-lc)] x) // merge ANDconst into ubfiz // (x & ac) << sc (SLLconst [sc] (ANDconst [ac] x)) && isARM64BFMask(sc, ac, 0) => (UBFIZ [armBFAuxInt(sc, arm64BFWidth(ac, 0))] x) // (x << sc) & ac (ANDconst [ac] (SLLconst [sc] x)) && isARM64BFMask(sc, ac, sc) => (UBFIZ [armBFAuxInt(sc, arm64BFWidth(ac, sc))] x) // ubfx // (x << lc) >> rc (SRLconst [rc] (SLLconst [lc] x)) && lc < rc => (UBFX [armBFAuxInt(rc-lc, 64-rc)] x) // uint64(x) >> rc (SRLconst [rc] (MOVWUreg x)) && rc < 32 => (UBFX [armBFAuxInt(rc, 32-rc)] x) (SRLconst [rc] (MOVHUreg x)) && rc < 16 => (UBFX [armBFAuxInt(rc, 16-rc)] x) (SRLconst [rc] (MOVBUreg x)) && rc < 8 => (UBFX [armBFAuxInt(rc, 8-rc)] x) // uint64(x >> rc) (MOVWUreg (SRLconst [rc] x)) && rc < 32 => (UBFX [armBFAuxInt(rc, 32)] x) (MOVHUreg (SRLconst [rc] x)) && rc < 16 => (UBFX [armBFAuxInt(rc, 16)] x) (MOVBUreg (SRLconst [rc] x)) && rc < 8 => (UBFX [armBFAuxInt(rc, 8)] x) // merge ANDconst into ubfx // (x >> sc) & ac (ANDconst [ac] (SRLconst [sc] x)) && isARM64BFMask(sc, ac, 0) => (UBFX [armBFAuxInt(sc, arm64BFWidth(ac, 0))] x) // (x & ac) >> sc (SRLconst [sc] (ANDconst [ac] x)) && isARM64BFMask(sc, ac, sc) => (UBFX [armBFAuxInt(sc, arm64BFWidth(ac, sc))] x) // merge ubfx and zerso-extension into ubfx (MOVWUreg (UBFX [bfc] x)) && bfc.getARM64BFwidth() <= 32 => (UBFX [bfc] x) (MOVHUreg (UBFX [bfc] x)) && bfc.getARM64BFwidth() <= 16 => (UBFX [bfc] x) (MOVBUreg (UBFX [bfc] x)) && bfc.getARM64BFwidth() <= 8 => (UBFX [bfc] x) // ubfiz/ubfx combinations: merge shifts into bitfield ops (SRLconst [sc] (UBFX [bfc] x)) && sc < bfc.getARM64BFwidth() => (UBFX [armBFAuxInt(bfc.getARM64BFlsb()+sc, bfc.getARM64BFwidth()-sc)] x) (UBFX [bfc] (SRLconst [sc] x)) && sc+bfc.getARM64BFwidth()+bfc.getARM64BFlsb() < 64 => (UBFX [armBFAuxInt(bfc.getARM64BFlsb()+sc, bfc.getARM64BFwidth())] x) (SLLconst [sc] (UBFIZ [bfc] x)) && sc+bfc.getARM64BFwidth()+bfc.getARM64BFlsb() < 64 => (UBFIZ [armBFAuxInt(bfc.getARM64BFlsb()+sc, bfc.getARM64BFwidth())] x) (UBFIZ [bfc] (SLLconst [sc] x)) && sc < bfc.getARM64BFwidth() => (UBFIZ [armBFAuxInt(bfc.getARM64BFlsb()+sc, bfc.getARM64BFwidth()-sc)] x) // ((x << c1) >> c2) >> c3 (SRLconst [sc] (UBFIZ [bfc] x)) && sc == bfc.getARM64BFlsb() => (ANDconst [1< (UBFIZ [armBFAuxInt(bfc.getARM64BFlsb()-sc, bfc.getARM64BFwidth())] x) (SRLconst [sc] (UBFIZ [bfc] x)) && sc > bfc.getARM64BFlsb() && sc < bfc.getARM64BFlsb()+bfc.getARM64BFwidth() => (UBFX [armBFAuxInt(sc-bfc.getARM64BFlsb(), bfc.getARM64BFlsb()+bfc.getARM64BFwidth()-sc)] x) // ((x << c1) << c2) >> c3 (UBFX [bfc] (SLLconst [sc] x)) && sc == bfc.getARM64BFlsb() => (ANDconst [1< (UBFX [armBFAuxInt(bfc.getARM64BFlsb()-sc, bfc.getARM64BFwidth())] x) (UBFX [bfc] (SLLconst [sc] x)) && sc > bfc.getARM64BFlsb() && sc < bfc.getARM64BFlsb()+bfc.getARM64BFwidth() => (UBFIZ [armBFAuxInt(sc-bfc.getARM64BFlsb(), bfc.getARM64BFlsb()+bfc.getARM64BFwidth()-sc)] x) // bfi (OR (UBFIZ [bfc] x) (ANDconst [ac] y)) && ac == ^((1< (BFI [bfc] y x) (ORshiftRL [rc] (ANDconst [ac] x) (SLLconst [lc] y)) && lc > rc && ac == ^((1< (BFI [armBFAuxInt(lc-rc, 64-lc)] x y) // bfxil (OR (UBFX [bfc] x) (ANDconst [ac] y)) && ac == ^(1< (BFXIL [bfc] y x) (ORshiftLL [sc] (UBFX [bfc] x) (SRLconst [sc] y)) && sc == bfc.getARM64BFwidth() => (BFXIL [bfc] y x) (ORshiftRL [rc] (ANDconst [ac] y) (SLLconst [lc] x)) && lc < rc && ac == ^((1< (BFXIL [armBFAuxInt(rc-lc, 64-rc)] y x) // do combined loads // little endian loads // b[0] | b[1]<<8 => load 16-bit (ORshiftLL [8] y0:(MOVDnop x0:(MOVBUload [i0] {s} p mem)) y1:(MOVDnop x1:(MOVBUload [i1] {s} p mem))) && i1 == i0+1 && x0.Uses == 1 && x1.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && mergePoint(b,x0,x1) != nil && clobber(x0, x1, y0, y1) => @mergePoint(b,x0,x1) (MOVHUload {s} (OffPtr [int64(i0)] p) mem) (ORshiftLL [8] y0:(MOVDnop x0:(MOVBUloadidx ptr0 idx0 mem)) y1:(MOVDnop x1:(MOVBUload [1] {s} p1:(ADD ptr1 idx1) mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && mergePoint(b,x0,x1) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x0, x1, y0, y1) => @mergePoint(b,x0,x1) (MOVHUloadidx ptr0 idx0 mem) (ORshiftLL [8] y0:(MOVDnop x0:(MOVBUloadidx ptr idx mem)) y1:(MOVDnop x1:(MOVBUloadidx ptr (ADDconst [1] idx) mem))) && x0.Uses == 1 && x1.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && mergePoint(b,x0,x1) != nil && clobber(x0, x1, y0, y1) => @mergePoint(b,x0,x1) (MOVHUloadidx ptr idx mem) // b[0] | b[1]<<8 | b[2]<<16 | b[3]<<24 => load 32-bit (ORshiftLL [24] o0:(ORshiftLL [16] x0:(MOVHUload [i0] {s} p mem) y1:(MOVDnop x1:(MOVBUload [i2] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [i3] {s} p mem))) && i2 == i0+2 && i3 == i0+3 && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && o0.Uses == 1 && mergePoint(b,x0,x1,x2) != nil && clobber(x0, x1, x2, y1, y2, o0) => @mergePoint(b,x0,x1,x2) (MOVWUload {s} (OffPtr [int64(i0)] p) mem) (ORshiftLL [24] o0:(ORshiftLL [16] x0:(MOVHUloadidx ptr0 idx0 mem) y1:(MOVDnop x1:(MOVBUload [2] {s} p1:(ADD ptr1 idx1) mem))) y2:(MOVDnop x2:(MOVBUload [3] {s} p mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && o0.Uses == 1 && mergePoint(b,x0,x1,x2) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2, y1, y2, o0) => @mergePoint(b,x0,x1,x2) (MOVWUloadidx ptr0 idx0 mem) (ORshiftLL [24] o0:(ORshiftLL [16] x0:(MOVHUloadidx ptr idx mem) y1:(MOVDnop x1:(MOVBUloadidx ptr (ADDconst [2] idx) mem))) y2:(MOVDnop x2:(MOVBUloadidx ptr (ADDconst [3] idx) mem))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && o0.Uses == 1 && mergePoint(b,x0,x1,x2) != nil && clobber(x0, x1, x2, y1, y2, o0) => @mergePoint(b,x0,x1,x2) (MOVWUloadidx ptr idx mem) (ORshiftLL [24] o0:(ORshiftLL [16] x0:(MOVHUloadidx2 ptr0 idx0 mem) y1:(MOVDnop x1:(MOVBUload [2] {s} p1:(ADDshiftLL [1] ptr1 idx1) mem))) y2:(MOVDnop x2:(MOVBUload [3] {s} p mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && o0.Uses == 1 && mergePoint(b,x0,x1,x2) != nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && isSamePtr(p1, p) && clobber(x0, x1, x2, y1, y2, o0) => @mergePoint(b,x0,x1,x2) (MOVWUloadidx ptr0 (SLLconst [1] idx0) mem) // b[0] | b[1]<<8 | b[2]<<16 | b[3]<<24 | b[4]<<32 | b[5]<<40 | b[6]<<48 | b[7]<<56 => load 64-bit (ORshiftLL [56] o0:(ORshiftLL [48] o1:(ORshiftLL [40] o2:(ORshiftLL [32] x0:(MOVWUload [i0] {s} p mem) y1:(MOVDnop x1:(MOVBUload [i4] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [i5] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [i6] {s} p mem))) y4:(MOVDnop x4:(MOVBUload [i7] {s} p mem))) && i4 == i0+4 && i5 == i0+5 && i6 == i0+6 && i7 == i0+7 && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4) != nil && clobber(x0, x1, x2, x3, x4, y1, y2, y3, y4, o0, o1, o2) => @mergePoint(b,x0,x1,x2,x3,x4) (MOVDload {s} (OffPtr [int64(i0)] p) mem) (ORshiftLL [56] o0:(ORshiftLL [48] o1:(ORshiftLL [40] o2:(ORshiftLL [32] x0:(MOVWUloadidx ptr0 idx0 mem) y1:(MOVDnop x1:(MOVBUload [4] {s} p1:(ADD ptr1 idx1) mem))) y2:(MOVDnop x2:(MOVBUload [5] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [6] {s} p mem))) y4:(MOVDnop x4:(MOVBUload [7] {s} p mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2, x3, x4, y1, y2, y3, y4, o0, o1, o2) => @mergePoint(b,x0,x1,x2,x3,x4) (MOVDloadidx ptr0 idx0 mem) (ORshiftLL [56] o0:(ORshiftLL [48] o1:(ORshiftLL [40] o2:(ORshiftLL [32] x0:(MOVWUloadidx4 ptr0 idx0 mem) y1:(MOVDnop x1:(MOVBUload [4] {s} p1:(ADDshiftLL [2] ptr1 idx1) mem))) y2:(MOVDnop x2:(MOVBUload [5] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [6] {s} p mem))) y4:(MOVDnop x4:(MOVBUload [7] {s} p mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4) != nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && isSamePtr(p1, p) && clobber(x0, x1, x2, x3, x4, y1, y2, y3, y4, o0, o1, o2) => @mergePoint(b,x0,x1,x2,x3,x4) (MOVDloadidx ptr0 (SLLconst [2] idx0) mem) (ORshiftLL [56] o0:(ORshiftLL [48] o1:(ORshiftLL [40] o2:(ORshiftLL [32] x0:(MOVWUloadidx ptr idx mem) y1:(MOVDnop x1:(MOVBUloadidx ptr (ADDconst [4] idx) mem))) y2:(MOVDnop x2:(MOVBUloadidx ptr (ADDconst [5] idx) mem))) y3:(MOVDnop x3:(MOVBUloadidx ptr (ADDconst [6] idx) mem))) y4:(MOVDnop x4:(MOVBUloadidx ptr (ADDconst [7] idx) mem))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4) != nil && clobber(x0, x1, x2, x3, x4, y1, y2, y3, y4, o0, o1, o2) => @mergePoint(b,x0,x1,x2,x3,x4) (MOVDloadidx ptr idx mem) // b[3]<<24 | b[2]<<16 | b[1]<<8 | b[0] => load 32-bit (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] s0:(SLLconst [24] y0:(MOVDnop x0:(MOVBUload [i3] {s} p mem))) y1:(MOVDnop x1:(MOVBUload [i2] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [i1] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [i0] {s} p mem))) && i1 == i0+1 && i2 == i0+2 && i3 == i0+3 && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3) != nil && clobber(x0, x1, x2, x3, y0, y1, y2, y3, o0, o1, s0) => @mergePoint(b,x0,x1,x2,x3) (MOVWUload {s} (OffPtr [int64(i0)] p) mem) (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] s0:(SLLconst [24] y0:(MOVDnop x0:(MOVBUload [3] {s} p mem))) y1:(MOVDnop x1:(MOVBUload [2] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [1] {s} p1:(ADD ptr1 idx1) mem))) y3:(MOVDnop x3:(MOVBUloadidx ptr0 idx0 mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2, x3, y0, y1, y2, y3, o0, o1, s0) => @mergePoint(b,x0,x1,x2,x3) (MOVWUloadidx ptr0 idx0 mem) (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] s0:(SLLconst [24] y0:(MOVDnop x0:(MOVBUloadidx ptr (ADDconst [3] idx) mem))) y1:(MOVDnop x1:(MOVBUloadidx ptr (ADDconst [2] idx) mem))) y2:(MOVDnop x2:(MOVBUloadidx ptr (ADDconst [1] idx) mem))) y3:(MOVDnop x3:(MOVBUloadidx ptr idx mem))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3) != nil && clobber(x0, x1, x2, x3, y0, y1, y2, y3, o0, o1, s0) => @mergePoint(b,x0,x1,x2,x3) (MOVWUloadidx ptr idx mem) // b[7]<<56 | b[6]<<48 | b[5]<<40 | b[4]<<32 | b[3]<<24 | b[2]<<16 | b[1]<<8 | b[0] => load 64-bit (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] o2:(ORshiftLL [24] o3:(ORshiftLL [32] o4:(ORshiftLL [40] o5:(ORshiftLL [48] s0:(SLLconst [56] y0:(MOVDnop x0:(MOVBUload [i7] {s} p mem))) y1:(MOVDnop x1:(MOVBUload [i6] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [i5] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [i4] {s} p mem))) y4:(MOVDnop x4:(MOVBUload [i3] {s} p mem))) y5:(MOVDnop x5:(MOVBUload [i2] {s} p mem))) y6:(MOVDnop x6:(MOVBUload [i1] {s} p mem))) y7:(MOVDnop x7:(MOVBUload [i0] {s} p mem))) && i1 == i0+1 && i2 == i0+2 && i3 == i0+3 && i4 == i0+4 && i5 == i0+5 && i6 == i0+6 && i7 == i0+7 && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && x5.Uses == 1 && x6.Uses == 1 && x7.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && y5.Uses == 1 && y6.Uses == 1 && y7.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && o3.Uses == 1 && o4.Uses == 1 && o5.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) != nil && clobber(x0, x1, x2, x3, x4, x5, x6, x7, y0, y1, y2, y3, y4, y5, y6, y7, o0, o1, o2, o3, o4, o5, s0) => @mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) (MOVDload {s} (OffPtr [int64(i0)] p) mem) (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] o2:(ORshiftLL [24] o3:(ORshiftLL [32] o4:(ORshiftLL [40] o5:(ORshiftLL [48] s0:(SLLconst [56] y0:(MOVDnop x0:(MOVBUload [7] {s} p mem))) y1:(MOVDnop x1:(MOVBUload [6] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [5] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [4] {s} p mem))) y4:(MOVDnop x4:(MOVBUload [3] {s} p mem))) y5:(MOVDnop x5:(MOVBUload [2] {s} p mem))) y6:(MOVDnop x6:(MOVBUload [1] {s} p1:(ADD ptr1 idx1) mem))) y7:(MOVDnop x7:(MOVBUloadidx ptr0 idx0 mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && x5.Uses == 1 && x6.Uses == 1 && x7.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && y5.Uses == 1 && y6.Uses == 1 && y7.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && o3.Uses == 1 && o4.Uses == 1 && o5.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2, x3, x4, x5, x6, x7, y0, y1, y2, y3, y4, y5, y6, y7, o0, o1, o2, o3, o4, o5, s0) => @mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) (MOVDloadidx ptr0 idx0 mem) (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] o2:(ORshiftLL [24] o3:(ORshiftLL [32] o4:(ORshiftLL [40] o5:(ORshiftLL [48] s0:(SLLconst [56] y0:(MOVDnop x0:(MOVBUloadidx ptr (ADDconst [7] idx) mem))) y1:(MOVDnop x1:(MOVBUloadidx ptr (ADDconst [6] idx) mem))) y2:(MOVDnop x2:(MOVBUloadidx ptr (ADDconst [5] idx) mem))) y3:(MOVDnop x3:(MOVBUloadidx ptr (ADDconst [4] idx) mem))) y4:(MOVDnop x4:(MOVBUloadidx ptr (ADDconst [3] idx) mem))) y5:(MOVDnop x5:(MOVBUloadidx ptr (ADDconst [2] idx) mem))) y6:(MOVDnop x6:(MOVBUloadidx ptr (ADDconst [1] idx) mem))) y7:(MOVDnop x7:(MOVBUloadidx ptr idx mem))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && x5.Uses == 1 && x6.Uses == 1 && x7.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && y5.Uses == 1 && y6.Uses == 1 && y7.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && o3.Uses == 1 && o4.Uses == 1 && o5.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) != nil && clobber(x0, x1, x2, x3, x4, x5, x6, x7, y0, y1, y2, y3, y4, y5, y6, y7, o0, o1, o2, o3, o4, o5, s0) => @mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) (MOVDloadidx ptr idx mem) // big endian loads // b[1] | b[0]<<8 => load 16-bit, reverse (ORshiftLL [8] y0:(MOVDnop x0:(MOVBUload [i1] {s} p mem)) y1:(MOVDnop x1:(MOVBUload [i0] {s} p mem))) && i1 == i0+1 && x0.Uses == 1 && x1.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && mergePoint(b,x0,x1) != nil && clobber(x0, x1, y0, y1) => @mergePoint(b,x0,x1) (REV16W (MOVHUload [i0] {s} p mem)) (ORshiftLL [8] y0:(MOVDnop x0:(MOVBUload [1] {s} p1:(ADD ptr1 idx1) mem)) y1:(MOVDnop x1:(MOVBUloadidx ptr0 idx0 mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && mergePoint(b,x0,x1) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x0, x1, y0, y1) => @mergePoint(b,x0,x1) (REV16W (MOVHUloadidx ptr0 idx0 mem)) (ORshiftLL [8] y0:(MOVDnop x0:(MOVBUloadidx ptr (ADDconst [1] idx) mem)) y1:(MOVDnop x1:(MOVBUloadidx ptr idx mem))) && x0.Uses == 1 && x1.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && mergePoint(b,x0,x1) != nil && clobber(x0, x1, y0, y1) => @mergePoint(b,x0,x1) (REV16W (MOVHUloadidx ptr idx mem)) // b[3] | b[2]<<8 | b[1]<<16 | b[0]<<24 => load 32-bit, reverse (ORshiftLL [24] o0:(ORshiftLL [16] y0:(REV16W x0:(MOVHUload [i2] {s} p mem)) y1:(MOVDnop x1:(MOVBUload [i1] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [i0] {s} p mem))) && i1 == i0+1 && i2 == i0+2 && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && o0.Uses == 1 && mergePoint(b,x0,x1,x2) != nil && clobber(x0, x1, x2, y0, y1, y2, o0) => @mergePoint(b,x0,x1,x2) (REVW (MOVWUload {s} (OffPtr [int64(i0)] p) mem)) (ORshiftLL [24] o0:(ORshiftLL [16] y0:(REV16W x0:(MOVHUload [2] {s} p mem)) y1:(MOVDnop x1:(MOVBUload [1] {s} p1:(ADD ptr1 idx1) mem))) y2:(MOVDnop x2:(MOVBUloadidx ptr0 idx0 mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && o0.Uses == 1 && mergePoint(b,x0,x1,x2) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2, y0, y1, y2, o0) => @mergePoint(b,x0,x1,x2) (REVW (MOVWUloadidx ptr0 idx0 mem)) (ORshiftLL [24] o0:(ORshiftLL [16] y0:(REV16W x0:(MOVHUloadidx ptr (ADDconst [2] idx) mem)) y1:(MOVDnop x1:(MOVBUloadidx ptr (ADDconst [1] idx) mem))) y2:(MOVDnop x2:(MOVBUloadidx ptr idx mem))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && o0.Uses == 1 && mergePoint(b,x0,x1,x2) != nil && clobber(x0, x1, x2, y0, y1, y2, o0) => @mergePoint(b,x0,x1,x2) (REVW (MOVWUloadidx ptr idx mem)) // b[7] | b[6]<<8 | b[5]<<16 | b[4]<<24 | b[3]<<32 | b[2]<<40 | b[1]<<48 | b[0]<<56 => load 64-bit, reverse (ORshiftLL [56] o0:(ORshiftLL [48] o1:(ORshiftLL [40] o2:(ORshiftLL [32] y0:(REVW x0:(MOVWUload [i4] {s} p mem)) y1:(MOVDnop x1:(MOVBUload [i3] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [i2] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [i1] {s} p mem))) y4:(MOVDnop x4:(MOVBUload [i0] {s} p mem))) && i1 == i0+1 && i2 == i0+2 && i3 == i0+3 && i4 == i0+4 && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4) != nil && clobber(x0, x1, x2, x3, x4, y0, y1, y2, y3, y4, o0, o1, o2) => @mergePoint(b,x0,x1,x2,x3,x4) (REV (MOVDload {s} (OffPtr [int64(i0)] p) mem)) (ORshiftLL [56] o0:(ORshiftLL [48] o1:(ORshiftLL [40] o2:(ORshiftLL [32] y0:(REVW x0:(MOVWUload [4] {s} p mem)) y1:(MOVDnop x1:(MOVBUload [3] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [2] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [1] {s} p1:(ADD ptr1 idx1) mem))) y4:(MOVDnop x4:(MOVBUloadidx ptr0 idx0 mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2, x3, x4, y0, y1, y2, y3, y4, o0, o1, o2) => @mergePoint(b,x0,x1,x2,x3,x4) (REV (MOVDloadidx ptr0 idx0 mem)) (ORshiftLL [56] o0:(ORshiftLL [48] o1:(ORshiftLL [40] o2:(ORshiftLL [32] y0:(REVW x0:(MOVWUloadidx ptr (ADDconst [4] idx) mem)) y1:(MOVDnop x1:(MOVBUloadidx ptr (ADDconst [3] idx) mem))) y2:(MOVDnop x2:(MOVBUloadidx ptr (ADDconst [2] idx) mem))) y3:(MOVDnop x3:(MOVBUloadidx ptr (ADDconst [1] idx) mem))) y4:(MOVDnop x4:(MOVBUloadidx ptr idx mem))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4) != nil && clobber(x0, x1, x2, x3, x4, y0, y1, y2, y3, y4, o0, o1, o2) => @mergePoint(b,x0,x1,x2,x3,x4) (REV (MOVDloadidx ptr idx mem)) // b[0]<<24 | b[1]<<16 | b[2]<<8 | b[3] => load 32-bit, reverse (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] s0:(SLLconst [24] y0:(MOVDnop x0:(MOVBUload [i0] {s} p mem))) y1:(MOVDnop x1:(MOVBUload [i1] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [i2] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [i3] {s} p mem))) && i1 == i0+1 && i2 == i0+2 && i3 == i0+3 && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3) != nil && clobber(x0, x1, x2, x3, y0, y1, y2, y3, o0, o1, s0) => @mergePoint(b,x0,x1,x2,x3) (REVW (MOVWUload {s} (OffPtr [int64(i0)] p) mem)) (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] s0:(SLLconst [24] y0:(MOVDnop x0:(MOVBUloadidx ptr0 idx0 mem))) y1:(MOVDnop x1:(MOVBUload [1] {s} p1:(ADD ptr1 idx1) mem))) y2:(MOVDnop x2:(MOVBUload [2] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [3] {s} p mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2, x3, y0, y1, y2, y3, o0, o1, s0) => @mergePoint(b,x0,x1,x2,x3) (REVW (MOVWUloadidx ptr0 idx0 mem)) (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] s0:(SLLconst [24] y0:(MOVDnop x0:(MOVBUloadidx ptr idx mem))) y1:(MOVDnop x1:(MOVBUloadidx ptr (ADDconst [1] idx) mem))) y2:(MOVDnop x2:(MOVBUloadidx ptr (ADDconst [2] idx) mem))) y3:(MOVDnop x3:(MOVBUloadidx ptr (ADDconst [3] idx) mem))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3) != nil && clobber(x0, x1, x2, x3, y0, y1, y2, y3, o0, o1, s0) => @mergePoint(b,x0,x1,x2,x3) (REVW (MOVWUloadidx ptr idx mem)) // b[0]<<56 | b[1]<<48 | b[2]<<40 | b[3]<<32 | b[4]<<24 | b[5]<<16 | b[6]<<8 | b[7] => load 64-bit, reverse (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] o2:(ORshiftLL [24] o3:(ORshiftLL [32] o4:(ORshiftLL [40] o5:(ORshiftLL [48] s0:(SLLconst [56] y0:(MOVDnop x0:(MOVBUload [i0] {s} p mem))) y1:(MOVDnop x1:(MOVBUload [i1] {s} p mem))) y2:(MOVDnop x2:(MOVBUload [i2] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [i3] {s} p mem))) y4:(MOVDnop x4:(MOVBUload [i4] {s} p mem))) y5:(MOVDnop x5:(MOVBUload [i5] {s} p mem))) y6:(MOVDnop x6:(MOVBUload [i6] {s} p mem))) y7:(MOVDnop x7:(MOVBUload [i7] {s} p mem))) && i1 == i0+1 && i2 == i0+2 && i3 == i0+3 && i4 == i0+4 && i5 == i0+5 && i6 == i0+6 && i7 == i0+7 && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && x5.Uses == 1 && x6.Uses == 1 && x7.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && y5.Uses == 1 && y6.Uses == 1 && y7.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && o3.Uses == 1 && o4.Uses == 1 && o5.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) != nil && clobber(x0, x1, x2, x3, x4, x5, x6, x7, y0, y1, y2, y3, y4, y5, y6, y7, o0, o1, o2, o3, o4, o5, s0) => @mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) (REV (MOVDload {s} (OffPtr [int64(i0)] p) mem)) (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] o2:(ORshiftLL [24] o3:(ORshiftLL [32] o4:(ORshiftLL [40] o5:(ORshiftLL [48] s0:(SLLconst [56] y0:(MOVDnop x0:(MOVBUloadidx ptr0 idx0 mem))) y1:(MOVDnop x1:(MOVBUload [1] {s} p1:(ADD ptr1 idx1) mem))) y2:(MOVDnop x2:(MOVBUload [2] {s} p mem))) y3:(MOVDnop x3:(MOVBUload [3] {s} p mem))) y4:(MOVDnop x4:(MOVBUload [4] {s} p mem))) y5:(MOVDnop x5:(MOVBUload [5] {s} p mem))) y6:(MOVDnop x6:(MOVBUload [6] {s} p mem))) y7:(MOVDnop x7:(MOVBUload [7] {s} p mem))) && s == nil && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && x5.Uses == 1 && x6.Uses == 1 && x7.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && y5.Uses == 1 && y6.Uses == 1 && y7.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && o3.Uses == 1 && o4.Uses == 1 && o5.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) != nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2, x3, x4, x5, x6, x7, y0, y1, y2, y3, y4, y5, y6, y7, o0, o1, o2, o3, o4, o5, s0) => @mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) (REV (MOVDloadidx ptr0 idx0 mem)) (OR o0:(ORshiftLL [8] o1:(ORshiftLL [16] o2:(ORshiftLL [24] o3:(ORshiftLL [32] o4:(ORshiftLL [40] o5:(ORshiftLL [48] s0:(SLLconst [56] y0:(MOVDnop x0:(MOVBUloadidx ptr idx mem))) y1:(MOVDnop x1:(MOVBUloadidx ptr (ADDconst [1] idx) mem))) y2:(MOVDnop x2:(MOVBUloadidx ptr (ADDconst [2] idx) mem))) y3:(MOVDnop x3:(MOVBUloadidx ptr (ADDconst [3] idx) mem))) y4:(MOVDnop x4:(MOVBUloadidx ptr (ADDconst [4] idx) mem))) y5:(MOVDnop x5:(MOVBUloadidx ptr (ADDconst [5] idx) mem))) y6:(MOVDnop x6:(MOVBUloadidx ptr (ADDconst [6] idx) mem))) y7:(MOVDnop x7:(MOVBUloadidx ptr (ADDconst [7] idx) mem))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && x5.Uses == 1 && x6.Uses == 1 && x7.Uses == 1 && y0.Uses == 1 && y1.Uses == 1 && y2.Uses == 1 && y3.Uses == 1 && y4.Uses == 1 && y5.Uses == 1 && y6.Uses == 1 && y7.Uses == 1 && o0.Uses == 1 && o1.Uses == 1 && o2.Uses == 1 && o3.Uses == 1 && o4.Uses == 1 && o5.Uses == 1 && s0.Uses == 1 && mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) != nil && clobber(x0, x1, x2, x3, x4, x5, x6, x7, y0, y1, y2, y3, y4, y5, y6, y7, o0, o1, o2, o3, o4, o5, s0) => @mergePoint(b,x0,x1,x2,x3,x4,x5,x6,x7) (REV (MOVDloadidx ptr idx mem)) // Combine zero stores into larger (unaligned) stores. (MOVBstorezero [i] {s} ptr0 x:(MOVBstorezero [j] {s} ptr1 mem)) && x.Uses == 1 && areAdjacentOffsets(int64(i),int64(j),1) && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVHstorezero [int32(min(int64(i),int64(j)))] {s} ptr0 mem) (MOVBstorezero [1] {s} (ADD ptr0 idx0) x:(MOVBstorezeroidx ptr1 idx1 mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstorezeroidx ptr1 idx1 mem) (MOVBstorezeroidx ptr (ADDconst [1] idx) x:(MOVBstorezeroidx ptr idx mem)) && x.Uses == 1 && clobber(x) => (MOVHstorezeroidx ptr idx mem) (MOVHstorezero [i] {s} ptr0 x:(MOVHstorezero [j] {s} ptr1 mem)) && x.Uses == 1 && areAdjacentOffsets(int64(i),int64(j),2) && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVWstorezero [int32(min(int64(i),int64(j)))] {s} ptr0 mem) (MOVHstorezero [2] {s} (ADD ptr0 idx0) x:(MOVHstorezeroidx ptr1 idx1 mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVWstorezeroidx ptr1 idx1 mem) (MOVHstorezeroidx ptr (ADDconst [2] idx) x:(MOVHstorezeroidx ptr idx mem)) && x.Uses == 1 && clobber(x) => (MOVWstorezeroidx ptr idx mem) (MOVHstorezero [2] {s} (ADDshiftLL [1] ptr0 idx0) x:(MOVHstorezeroidx2 ptr1 idx1 mem)) && x.Uses == 1 && s == nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && clobber(x) => (MOVWstorezeroidx ptr1 (SLLconst [1] idx1) mem) (MOVWstorezero [i] {s} ptr0 x:(MOVWstorezero [j] {s} ptr1 mem)) && x.Uses == 1 && areAdjacentOffsets(int64(i),int64(j),4) && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVDstorezero [int32(min(int64(i),int64(j)))] {s} ptr0 mem) (MOVWstorezero [4] {s} (ADD ptr0 idx0) x:(MOVWstorezeroidx ptr1 idx1 mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVDstorezeroidx ptr1 idx1 mem) (MOVWstorezeroidx ptr (ADDconst [4] idx) x:(MOVWstorezeroidx ptr idx mem)) && x.Uses == 1 && clobber(x) => (MOVDstorezeroidx ptr idx mem) (MOVWstorezero [4] {s} (ADDshiftLL [2] ptr0 idx0) x:(MOVWstorezeroidx4 ptr1 idx1 mem)) && x.Uses == 1 && s == nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && clobber(x) => (MOVDstorezeroidx ptr1 (SLLconst [2] idx1) mem) (MOVDstorezero [i] {s} ptr0 x:(MOVDstorezero [j] {s} ptr1 mem)) && x.Uses == 1 && areAdjacentOffsets(int64(i),int64(j),8) && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVQstorezero [int32(min(int64(i),int64(j)))] {s} ptr0 mem) (MOVDstorezero [8] {s} p0:(ADD ptr0 idx0) x:(MOVDstorezeroidx ptr1 idx1 mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVQstorezero [0] {s} p0 mem) (MOVDstorezero [8] {s} p0:(ADDshiftLL [3] ptr0 idx0) x:(MOVDstorezeroidx8 ptr1 idx1 mem)) && x.Uses == 1 && s == nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && clobber(x) => (MOVQstorezero [0] {s} p0 mem) // Combine stores into larger (unaligned) stores. (MOVBstore [i] {s} ptr0 (SRLconst [8] w) x:(MOVBstore [i-1] {s} ptr1 w mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVHstore [i-1] {s} ptr0 w mem) (MOVBstore [1] {s} (ADD ptr0 idx0) (SRLconst [8] w) x:(MOVBstoreidx ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr1 idx1 w mem) (MOVBstoreidx ptr (ADDconst [1] idx) (SRLconst [8] w) x:(MOVBstoreidx ptr idx w mem)) && x.Uses == 1 && clobber(x) => (MOVHstoreidx ptr idx w mem) (MOVBstore [i] {s} ptr0 (UBFX [armBFAuxInt(8, 8)] w) x:(MOVBstore [i-1] {s} ptr1 w mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVHstore [i-1] {s} ptr0 w mem) (MOVBstore [1] {s} (ADD ptr0 idx0) (UBFX [armBFAuxInt(8, 8)] w) x:(MOVBstoreidx ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr1 idx1 w mem) (MOVBstore [i] {s} ptr0 (UBFX [armBFAuxInt(8, 24)] w) x:(MOVBstore [i-1] {s} ptr1 w mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVHstore [i-1] {s} ptr0 w mem) (MOVBstore [1] {s} (ADD ptr0 idx0) (UBFX [armBFAuxInt(8, 24)] w) x:(MOVBstoreidx ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr1 idx1 w mem) (MOVBstore [i] {s} ptr0 (SRLconst [8] (MOVDreg w)) x:(MOVBstore [i-1] {s} ptr1 w mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVHstore [i-1] {s} ptr0 w mem) (MOVBstore [1] {s} (ADD ptr0 idx0) (SRLconst [8] (MOVDreg w)) x:(MOVBstoreidx ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr1 idx1 w mem) (MOVBstore [i] {s} ptr0 (SRLconst [j] w) x:(MOVBstore [i-1] {s} ptr1 w0:(SRLconst [j-8] w) mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVHstore [i-1] {s} ptr0 w0 mem) (MOVBstore [1] {s} (ADD ptr0 idx0) (SRLconst [j] w) x:(MOVBstoreidx ptr1 idx1 w0:(SRLconst [j-8] w) mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr1 idx1 w0 mem) (MOVBstore [i] {s} ptr0 (UBFX [bfc] w) x:(MOVBstore [i-1] {s} ptr1 w0:(UBFX [bfc2] w) mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && bfc.getARM64BFwidth() == 32 - bfc.getARM64BFlsb() && bfc2.getARM64BFwidth() == 32 - bfc2.getARM64BFlsb() && bfc2.getARM64BFlsb() == bfc.getARM64BFlsb() - 8 && clobber(x) => (MOVHstore [i-1] {s} ptr0 w0 mem) (MOVBstore [1] {s} (ADD ptr0 idx0) (UBFX [bfc] w) x:(MOVBstoreidx ptr1 idx1 w0:(UBFX [bfc2] w) mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && bfc.getARM64BFwidth() == 32 - bfc.getARM64BFlsb() && bfc2.getARM64BFwidth() == 32 - bfc2.getARM64BFlsb() && bfc2.getARM64BFlsb() == bfc.getARM64BFlsb() - 8 && clobber(x) => (MOVHstoreidx ptr1 idx1 w0 mem) (MOVBstore [i] {s} ptr0 (SRLconst [j] (MOVDreg w)) x:(MOVBstore [i-1] {s} ptr1 w0:(SRLconst [j-8] (MOVDreg w)) mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVHstore [i-1] {s} ptr0 w0 mem) (MOVBstore [1] {s} (ADD ptr0 idx0) (SRLconst [j] (MOVDreg w)) x:(MOVBstoreidx ptr1 idx1 w0:(SRLconst [j-8] (MOVDreg w)) mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr1 idx1 w0 mem) (MOVHstore [i] {s} ptr0 (SRLconst [16] w) x:(MOVHstore [i-2] {s} ptr1 w mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVWstore [i-2] {s} ptr0 w mem) (MOVHstore [2] {s} (ADD ptr0 idx0) (SRLconst [16] w) x:(MOVHstoreidx ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVWstoreidx ptr1 idx1 w mem) (MOVHstoreidx ptr (ADDconst [2] idx) (SRLconst [16] w) x:(MOVHstoreidx ptr idx w mem)) && x.Uses == 1 && clobber(x) => (MOVWstoreidx ptr idx w mem) (MOVHstore [2] {s} (ADDshiftLL [1] ptr0 idx0) (SRLconst [16] w) x:(MOVHstoreidx2 ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && clobber(x) => (MOVWstoreidx ptr1 (SLLconst [1] idx1) w mem) (MOVHstore [i] {s} ptr0 (UBFX [armBFAuxInt(16, 16)] w) x:(MOVHstore [i-2] {s} ptr1 w mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVWstore [i-2] {s} ptr0 w mem) (MOVHstore [2] {s} (ADD ptr0 idx0) (UBFX [armBFAuxInt(16, 16)] w) x:(MOVHstoreidx ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVWstoreidx ptr1 idx1 w mem) (MOVHstore [2] {s} (ADDshiftLL [1] ptr0 idx0) (UBFX [armBFAuxInt(16, 16)] w) x:(MOVHstoreidx2 ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && clobber(x) => (MOVWstoreidx ptr1 (SLLconst [1] idx1) w mem) (MOVHstore [i] {s} ptr0 (SRLconst [16] (MOVDreg w)) x:(MOVHstore [i-2] {s} ptr1 w mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVWstore [i-2] {s} ptr0 w mem) (MOVHstore [2] {s} (ADD ptr0 idx0) (SRLconst [16] (MOVDreg w)) x:(MOVHstoreidx ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVWstoreidx ptr1 idx1 w mem) (MOVHstore [2] {s} (ADDshiftLL [1] ptr0 idx0) (SRLconst [16] (MOVDreg w)) x:(MOVHstoreidx2 ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && clobber(x) => (MOVWstoreidx ptr1 (SLLconst [1] idx1) w mem) (MOVHstore [i] {s} ptr0 (SRLconst [j] w) x:(MOVHstore [i-2] {s} ptr1 w0:(SRLconst [j-16] w) mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVWstore [i-2] {s} ptr0 w0 mem) (MOVHstore [2] {s} (ADD ptr0 idx0) (SRLconst [j] w) x:(MOVHstoreidx ptr1 idx1 w0:(SRLconst [j-16] w) mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVWstoreidx ptr1 idx1 w0 mem) (MOVHstore [2] {s} (ADDshiftLL [1] ptr0 idx0) (SRLconst [j] w) x:(MOVHstoreidx2 ptr1 idx1 w0:(SRLconst [j-16] w) mem)) && x.Uses == 1 && s == nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && clobber(x) => (MOVWstoreidx ptr1 (SLLconst [1] idx1) w0 mem) (MOVWstore [i] {s} ptr0 (SRLconst [32] w) x:(MOVWstore [i-4] {s} ptr1 w mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVDstore [i-4] {s} ptr0 w mem) (MOVWstore [4] {s} (ADD ptr0 idx0) (SRLconst [32] w) x:(MOVWstoreidx ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVDstoreidx ptr1 idx1 w mem) (MOVWstoreidx ptr (ADDconst [4] idx) (SRLconst [32] w) x:(MOVWstoreidx ptr idx w mem)) && x.Uses == 1 && clobber(x) => (MOVDstoreidx ptr idx w mem) (MOVWstore [4] {s} (ADDshiftLL [2] ptr0 idx0) (SRLconst [32] w) x:(MOVWstoreidx4 ptr1 idx1 w mem)) && x.Uses == 1 && s == nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && clobber(x) => (MOVDstoreidx ptr1 (SLLconst [2] idx1) w mem) (MOVWstore [i] {s} ptr0 (SRLconst [j] w) x:(MOVWstore [i-4] {s} ptr1 w0:(SRLconst [j-32] w) mem)) && x.Uses == 1 && isSamePtr(ptr0, ptr1) && clobber(x) => (MOVDstore [i-4] {s} ptr0 w0 mem) (MOVWstore [4] {s} (ADD ptr0 idx0) (SRLconst [j] w) x:(MOVWstoreidx ptr1 idx1 w0:(SRLconst [j-32] w) mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVDstoreidx ptr1 idx1 w0 mem) (MOVWstore [4] {s} (ADDshiftLL [2] ptr0 idx0) (SRLconst [j] w) x:(MOVWstoreidx4 ptr1 idx1 w0:(SRLconst [j-32] w) mem)) && x.Uses == 1 && s == nil && isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) && clobber(x) => (MOVDstoreidx ptr1 (SLLconst [2] idx1) w0 mem) (MOVBstore [i] {s} ptr w x0:(MOVBstore [i-1] {s} ptr (SRLconst [8] w) x1:(MOVBstore [i-2] {s} ptr (SRLconst [16] w) x2:(MOVBstore [i-3] {s} ptr (SRLconst [24] w) x3:(MOVBstore [i-4] {s} ptr (SRLconst [32] w) x4:(MOVBstore [i-5] {s} ptr (SRLconst [40] w) x5:(MOVBstore [i-6] {s} ptr (SRLconst [48] w) x6:(MOVBstore [i-7] {s} ptr (SRLconst [56] w) mem)))))))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && x5.Uses == 1 && x6.Uses == 1 && clobber(x0, x1, x2, x3, x4, x5, x6) => (MOVDstore [i-7] {s} ptr (REV w) mem) (MOVBstore [7] {s} p w x0:(MOVBstore [6] {s} p (SRLconst [8] w) x1:(MOVBstore [5] {s} p (SRLconst [16] w) x2:(MOVBstore [4] {s} p (SRLconst [24] w) x3:(MOVBstore [3] {s} p (SRLconst [32] w) x4:(MOVBstore [2] {s} p (SRLconst [40] w) x5:(MOVBstore [1] {s} p1:(ADD ptr1 idx1) (SRLconst [48] w) x6:(MOVBstoreidx ptr0 idx0 (SRLconst [56] w) mem)))))))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && x3.Uses == 1 && x4.Uses == 1 && x5.Uses == 1 && x6.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2, x3, x4, x5, x6) => (MOVDstoreidx ptr0 idx0 (REV w) mem) (MOVBstore [i] {s} ptr w x0:(MOVBstore [i-1] {s} ptr (UBFX [armBFAuxInt(8, 24)] w) x1:(MOVBstore [i-2] {s} ptr (UBFX [armBFAuxInt(16, 16)] w) x2:(MOVBstore [i-3] {s} ptr (UBFX [armBFAuxInt(24, 8)] w) mem)))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && clobber(x0, x1, x2) => (MOVWstore [i-3] {s} ptr (REVW w) mem) (MOVBstore [3] {s} p w x0:(MOVBstore [2] {s} p (UBFX [armBFAuxInt(8, 24)] w) x1:(MOVBstore [1] {s} p1:(ADD ptr1 idx1) (UBFX [armBFAuxInt(16, 16)] w) x2:(MOVBstoreidx ptr0 idx0 (UBFX [armBFAuxInt(24, 8)] w) mem)))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2) => (MOVWstoreidx ptr0 idx0 (REVW w) mem) (MOVBstoreidx ptr (ADDconst [3] idx) w x0:(MOVBstoreidx ptr (ADDconst [2] idx) (UBFX [armBFAuxInt(8, 24)] w) x1:(MOVBstoreidx ptr (ADDconst [1] idx) (UBFX [armBFAuxInt(16, 16)] w) x2:(MOVBstoreidx ptr idx (UBFX [armBFAuxInt(24, 8)] w) mem)))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && clobber(x0, x1, x2) => (MOVWstoreidx ptr idx (REVW w) mem) (MOVBstoreidx ptr idx w x0:(MOVBstoreidx ptr (ADDconst [1] idx) (UBFX [armBFAuxInt(8, 24)] w) x1:(MOVBstoreidx ptr (ADDconst [2] idx) (UBFX [armBFAuxInt(16, 16)] w) x2:(MOVBstoreidx ptr (ADDconst [3] idx) (UBFX [armBFAuxInt(24, 8)] w) mem)))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && clobber(x0, x1, x2) => (MOVWstoreidx ptr idx w mem) (MOVBstore [i] {s} ptr w x0:(MOVBstore [i-1] {s} ptr (SRLconst [8] (MOVDreg w)) x1:(MOVBstore [i-2] {s} ptr (SRLconst [16] (MOVDreg w)) x2:(MOVBstore [i-3] {s} ptr (SRLconst [24] (MOVDreg w)) mem)))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && clobber(x0, x1, x2) => (MOVWstore [i-3] {s} ptr (REVW w) mem) (MOVBstore [3] {s} p w x0:(MOVBstore [2] {s} p (SRLconst [8] (MOVDreg w)) x1:(MOVBstore [1] {s} p1:(ADD ptr1 idx1) (SRLconst [16] (MOVDreg w)) x2:(MOVBstoreidx ptr0 idx0 (SRLconst [24] (MOVDreg w)) mem)))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2) => (MOVWstoreidx ptr0 idx0 (REVW w) mem) (MOVBstore [i] {s} ptr w x0:(MOVBstore [i-1] {s} ptr (SRLconst [8] w) x1:(MOVBstore [i-2] {s} ptr (SRLconst [16] w) x2:(MOVBstore [i-3] {s} ptr (SRLconst [24] w) mem)))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && clobber(x0, x1, x2) => (MOVWstore [i-3] {s} ptr (REVW w) mem) (MOVBstore [3] {s} p w x0:(MOVBstore [2] {s} p (SRLconst [8] w) x1:(MOVBstore [1] {s} p1:(ADD ptr1 idx1) (SRLconst [16] w) x2:(MOVBstoreidx ptr0 idx0 (SRLconst [24] w) mem)))) && x0.Uses == 1 && x1.Uses == 1 && x2.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && isSamePtr(p1, p) && clobber(x0, x1, x2) => (MOVWstoreidx ptr0 idx0 (REVW w) mem) (MOVBstore [i] {s} ptr w x:(MOVBstore [i-1] {s} ptr (SRLconst [8] w) mem)) && x.Uses == 1 && clobber(x) => (MOVHstore [i-1] {s} ptr (REV16W w) mem) (MOVBstore [1] {s} (ADD ptr1 idx1) w x:(MOVBstoreidx ptr0 idx0 (SRLconst [8] w) mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr0 idx0 (REV16W w) mem) (MOVBstore [i] {s} ptr w x:(MOVBstore [i-1] {s} ptr (UBFX [armBFAuxInt(8, 8)] w) mem)) && x.Uses == 1 && clobber(x) => (MOVHstore [i-1] {s} ptr (REV16W w) mem) (MOVBstore [1] {s} (ADD ptr1 idx1) w x:(MOVBstoreidx ptr0 idx0 (UBFX [armBFAuxInt(8, 8)] w) mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr0 idx0 (REV16W w) mem) (MOVBstoreidx ptr (ADDconst [1] idx) w x:(MOVBstoreidx ptr idx (UBFX [armBFAuxInt(8, 8)] w) mem)) && x.Uses == 1 && clobber(x) => (MOVHstoreidx ptr idx (REV16W w) mem) (MOVBstoreidx ptr idx w x:(MOVBstoreidx ptr (ADDconst [1] idx) (UBFX [armBFAuxInt(8, 8)] w) mem)) && x.Uses == 1 && clobber(x) => (MOVHstoreidx ptr idx w mem) (MOVBstore [i] {s} ptr w x:(MOVBstore [i-1] {s} ptr (SRLconst [8] (MOVDreg w)) mem)) && x.Uses == 1 && clobber(x) => (MOVHstore [i-1] {s} ptr (REV16W w) mem) (MOVBstore [1] {s} (ADD ptr1 idx1) w x:(MOVBstoreidx ptr0 idx0 (SRLconst [8] (MOVDreg w)) mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr0 idx0 (REV16W w) mem) (MOVBstore [i] {s} ptr w x:(MOVBstore [i-1] {s} ptr (UBFX [armBFAuxInt(8, 24)] w) mem)) && x.Uses == 1 && clobber(x) => (MOVHstore [i-1] {s} ptr (REV16W w) mem) (MOVBstore [1] {s} (ADD ptr1 idx1) w x:(MOVBstoreidx ptr0 idx0 (UBFX [armBFAuxInt(8, 24)] w) mem)) && x.Uses == 1 && s == nil && (isSamePtr(ptr0, ptr1) && isSamePtr(idx0, idx1) || isSamePtr(ptr0, idx1) && isSamePtr(idx0, ptr1)) && clobber(x) => (MOVHstoreidx ptr0 idx0 (REV16W w) mem) // FP simplification (FNEGS (FMULS x y)) => (FNMULS x y) (FNEGD (FMULD x y)) => (FNMULD x y) (FMULS (FNEGS x) y) => (FNMULS x y) (FMULD (FNEGD x) y) => (FNMULD x y) (FNEGS (FNMULS x y)) => (FMULS x y) (FNEGD (FNMULD x y)) => (FMULD x y) (FNMULS (FNEGS x) y) => (FMULS x y) (FNMULD (FNEGD x) y) => (FMULD x y) (FADDS a (FMULS x y)) => (FMADDS a x y) (FADDD a (FMULD x y)) => (FMADDD a x y) (FSUBS a (FMULS x y)) => (FMSUBS a x y) (FSUBD a (FMULD x y)) => (FMSUBD a x y) (FSUBS (FMULS x y) a) => (FNMSUBS a x y) (FSUBD (FMULD x y) a) => (FNMSUBD a x y) (FADDS a (FNMULS x y)) => (FMSUBS a x y) (FADDD a (FNMULD x y)) => (FMSUBD a x y) (FSUBS a (FNMULS x y)) => (FMADDS a x y) (FSUBD a (FNMULD x y)) => (FMADDD a x y) (FSUBS (FNMULS x y) a) => (FNMADDS a x y) (FSUBD (FNMULD x y) a) => (FNMADDD a x y) (MOVBUload [off] {sym} (SB) _) && symIsRO(sym) => (MOVDconst [int64(read8(sym, int64(off)))]) (MOVHUload [off] {sym} (SB) _) && symIsRO(sym) => (MOVDconst [int64(read16(sym, int64(off), config.ctxt.Arch.ByteOrder))]) (MOVWUload [off] {sym} (SB) _) && symIsRO(sym) => (MOVDconst [int64(read32(sym, int64(off), config.ctxt.Arch.ByteOrder))]) (MOVDload [off] {sym} (SB) _) && symIsRO(sym) => (MOVDconst [int64(read64(sym, int64(off), config.ctxt.Arch.ByteOrder))]) // Prefetch instructions (aux is option: 0 - PLDL1KEEP; 1 - PLDL1STRM) (PrefetchCache addr mem) => (PRFM [0] addr mem) (PrefetchCacheStreamed addr mem) => (PRFM [1] addr mem) // Arch-specific inlining for small or disjoint runtime.memmove (SelectN [0] call:(CALLstatic {sym} s1:(MOVDstore _ (MOVDconst [sz]) s2:(MOVDstore _ src s3:(MOVDstore {t} _ dst mem))))) && 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) => (Move [sz] dst src mem) // Match post-lowering calls, register version. (SelectN [0] call:(CALLstatic {sym} dst src (MOVDconst [sz]) mem)) && sz >= 0 && isSameCall(sym, "runtime.memmove") && call.Uses == 1 && isInlinableMemmove(dst, src, sz, config) && clobber(call) => (Move [sz] dst src mem) ((REV|REVW) ((REV|REVW) p)) => p