blob: 6b59555cbee70b767978009b4131f568dfa29baf [file] [log] [blame]
// 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|32|16|8) ...) => (ADD ...)
(Add(32|64)F ...) => (ADD(F|D) ...)
(Select0 (Add32carry <t> x y)) => (ADD <t.FieldType(0)> x y)
(Select1 (Add32carry <t> x y)) => (SGTU <typ.Bool> x (ADD <t.FieldType(0)> x y))
(Add32withcarry <t> x y c) => (ADD c (ADD <t> x y))
(Sub(Ptr|32|16|8) ...) => (SUB ...)
(Sub(32|64)F ...) => (SUB(F|D) ...)
(Select0 (Sub32carry <t> x y)) => (SUB <t.FieldType(0)> x y)
(Select1 (Sub32carry <t> x y)) => (SGTU <typ.Bool> (SUB <t.FieldType(0)> x y) x)
(Sub32withcarry <t> x y c) => (SUB (SUB <t> x y) c)
(Mul(32|16|8) ...) => (MUL ...)
(Mul(32|64)F ...) => (MUL(F|D) ...)
(Hmul(32|32u) x y) => (Select0 (MUL(T|TU) x y))
(Mul32uhilo ...) => (MULTU ...)
(Div32 x y) => (Select1 (DIV x y))
(Div32u x y) => (Select1 (DIVU x y))
(Div16 x y) => (Select1 (DIV (SignExt16to32 x) (SignExt16to32 y)))
(Div16u x y) => (Select1 (DIVU (ZeroExt16to32 x) (ZeroExt16to32 y)))
(Div8 x y) => (Select1 (DIV (SignExt8to32 x) (SignExt8to32 y)))
(Div8u x y) => (Select1 (DIVU (ZeroExt8to32 x) (ZeroExt8to32 y)))
(Div(32|64)F ...) => (DIV(F|D) ...)
(Mod32 x y) => (Select0 (DIV x y))
(Mod32u x y) => (Select0 (DIVU x y))
(Mod16 x y) => (Select0 (DIV (SignExt16to32 x) (SignExt16to32 y)))
(Mod16u x y) => (Select0 (DIVU (ZeroExt16to32 x) (ZeroExt16to32 y)))
(Mod8 x y) => (Select0 (DIV (SignExt8to32 x) (SignExt8to32 y)))
(Mod8u x y) => (Select0 (DIVU (ZeroExt8to32 x) (ZeroExt8to32 y)))
// (x + y) / 2 with x>=y becomes (x - y) / 2 + y
(Avg32u <t> x y) => (ADD (SRLconst <t> (SUB <t> x y) [1]) y)
(And(32|16|8) ...) => (AND ...)
(Or(32|16|8) ...) => (OR ...)
(Xor(32|16|8) ...) => (XOR ...)
// constant shifts
// generic opt rewrites all constant shifts to shift by Const64
(Lsh32x64 x (Const64 [c])) && uint32(c) < 32 => (SLLconst x [int32(c)])
(Rsh32x64 x (Const64 [c])) && uint32(c) < 32 => (SRAconst x [int32(c)])
(Rsh32Ux64 x (Const64 [c])) && uint32(c) < 32 => (SRLconst x [int32(c)])
(Lsh16x64 x (Const64 [c])) && uint32(c) < 16 => (SLLconst x [int32(c)])
(Rsh16x64 x (Const64 [c])) && uint32(c) < 16 => (SRAconst (SLLconst <typ.UInt32> x [16]) [int32(c+16)])
(Rsh16Ux64 x (Const64 [c])) && uint32(c) < 16 => (SRLconst (SLLconst <typ.UInt32> x [16]) [int32(c+16)])
(Lsh8x64 x (Const64 [c])) && uint32(c) < 8 => (SLLconst x [int32(c)])
(Rsh8x64 x (Const64 [c])) && uint32(c) < 8 => (SRAconst (SLLconst <typ.UInt32> x [24]) [int32(c+24)])
(Rsh8Ux64 x (Const64 [c])) && uint32(c) < 8 => (SRLconst (SLLconst <typ.UInt32> x [24]) [int32(c+24)])
// large constant shifts
(Lsh32x64 _ (Const64 [c])) && uint32(c) >= 32 => (MOVWconst [0])
(Rsh32Ux64 _ (Const64 [c])) && uint32(c) >= 32 => (MOVWconst [0])
(Lsh16x64 _ (Const64 [c])) && uint32(c) >= 16 => (MOVWconst [0])
(Rsh16Ux64 _ (Const64 [c])) && uint32(c) >= 16 => (MOVWconst [0])
(Lsh8x64 _ (Const64 [c])) && uint32(c) >= 8 => (MOVWconst [0])
(Rsh8Ux64 _ (Const64 [c])) && uint32(c) >= 8 => (MOVWconst [0])
// large constant signed right shift, we leave the sign bit
(Rsh32x64 x (Const64 [c])) && uint32(c) >= 32 => (SRAconst x [31])
(Rsh16x64 x (Const64 [c])) && uint32(c) >= 16 => (SRAconst (SLLconst <typ.UInt32> x [16]) [31])
(Rsh8x64 x (Const64 [c])) && uint32(c) >= 8 => (SRAconst (SLLconst <typ.UInt32> x [24]) [31])
// shifts
// hardware instruction uses only the low 5 bits of the shift
// we compare to 32 to ensure Go semantics for large shifts
(Lsh32x32 <t> x y) => (CMOVZ (SLL <t> x y) (MOVWconst [0]) (SGTUconst [32] y))
(Lsh32x16 <t> x y) => (CMOVZ (SLL <t> x (ZeroExt16to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt16to32 y)))
(Lsh32x8 <t> x y) => (CMOVZ (SLL <t> x (ZeroExt8to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt8to32 y)))
(Lsh16x32 <t> x y) => (CMOVZ (SLL <t> x y) (MOVWconst [0]) (SGTUconst [32] y))
(Lsh16x16 <t> x y) => (CMOVZ (SLL <t> x (ZeroExt16to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt16to32 y)))
(Lsh16x8 <t> x y) => (CMOVZ (SLL <t> x (ZeroExt8to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt8to32 y)))
(Lsh8x32 <t> x y) => (CMOVZ (SLL <t> x y) (MOVWconst [0]) (SGTUconst [32] y))
(Lsh8x16 <t> x y) => (CMOVZ (SLL <t> x (ZeroExt16to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt16to32 y)))
(Lsh8x8 <t> x y) => (CMOVZ (SLL <t> x (ZeroExt8to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt8to32 y)))
(Rsh32Ux32 <t> x y) => (CMOVZ (SRL <t> x y) (MOVWconst [0]) (SGTUconst [32] y))
(Rsh32Ux16 <t> x y) => (CMOVZ (SRL <t> x (ZeroExt16to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt16to32 y)))
(Rsh32Ux8 <t> x y) => (CMOVZ (SRL <t> x (ZeroExt8to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt8to32 y)))
(Rsh16Ux32 <t> x y) => (CMOVZ (SRL <t> (ZeroExt16to32 x) y) (MOVWconst [0]) (SGTUconst [32] y))
(Rsh16Ux16 <t> x y) => (CMOVZ (SRL <t> (ZeroExt16to32 x) (ZeroExt16to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt16to32 y)))
(Rsh16Ux8 <t> x y) => (CMOVZ (SRL <t> (ZeroExt16to32 x) (ZeroExt8to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt8to32 y)))
(Rsh8Ux32 <t> x y) => (CMOVZ (SRL <t> (ZeroExt8to32 x) y) (MOVWconst [0]) (SGTUconst [32] y))
(Rsh8Ux16 <t> x y) => (CMOVZ (SRL <t> (ZeroExt8to32 x) (ZeroExt16to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt16to32 y)))
(Rsh8Ux8 <t> x y) => (CMOVZ (SRL <t> (ZeroExt8to32 x) (ZeroExt8to32 y) ) (MOVWconst [0]) (SGTUconst [32] (ZeroExt8to32 y)))
(Rsh32x32 x y) => (SRA x ( CMOVZ <typ.UInt32> y (MOVWconst [31]) (SGTUconst [32] y)))
(Rsh32x16 x y) => (SRA x ( CMOVZ <typ.UInt32> (ZeroExt16to32 y) (MOVWconst [31]) (SGTUconst [32] (ZeroExt16to32 y))))
(Rsh32x8 x y) => (SRA x ( CMOVZ <typ.UInt32> (ZeroExt8to32 y) (MOVWconst [31]) (SGTUconst [32] (ZeroExt8to32 y))))
(Rsh16x32 x y) => (SRA (SignExt16to32 x) ( CMOVZ <typ.UInt32> y (MOVWconst [31]) (SGTUconst [32] y)))
(Rsh16x16 x y) => (SRA (SignExt16to32 x) ( CMOVZ <typ.UInt32> (ZeroExt16to32 y) (MOVWconst [31]) (SGTUconst [32] (ZeroExt16to32 y))))
(Rsh16x8 x y) => (SRA (SignExt16to32 x) ( CMOVZ <typ.UInt32> (ZeroExt8to32 y) (MOVWconst [31]) (SGTUconst [32] (ZeroExt8to32 y))))
(Rsh8x32 x y) => (SRA (SignExt16to32 x) ( CMOVZ <typ.UInt32> y (MOVWconst [31]) (SGTUconst [32] y)))
(Rsh8x16 x y) => (SRA (SignExt16to32 x) ( CMOVZ <typ.UInt32> (ZeroExt16to32 y) (MOVWconst [31]) (SGTUconst [32] (ZeroExt16to32 y))))
(Rsh8x8 x y) => (SRA (SignExt16to32 x) ( CMOVZ <typ.UInt32> (ZeroExt8to32 y) (MOVWconst [31]) (SGTUconst [32] (ZeroExt8to32 y))))
// rotates
(RotateLeft8 <t> x (MOVWconst [c])) => (Or8 (Lsh8x32 <t> x (MOVWconst [c&7])) (Rsh8Ux32 <t> x (MOVWconst [-c&7])))
(RotateLeft16 <t> x (MOVWconst [c])) => (Or16 (Lsh16x32 <t> x (MOVWconst [c&15])) (Rsh16Ux32 <t> x (MOVWconst [-c&15])))
(RotateLeft32 <t> x (MOVWconst [c])) => (Or32 (Lsh32x32 <t> x (MOVWconst [c&31])) (Rsh32Ux32 <t> x (MOVWconst [-c&31])))
(RotateLeft64 <t> x (MOVWconst [c])) => (Or64 (Lsh64x32 <t> x (MOVWconst [c&63])) (Rsh64Ux32 <t> x (MOVWconst [-c&63])))
// unary ops
(Neg(32|16|8) ...) => (NEG ...)
(Neg(32|64)F ...) => (NEG(F|D) ...)
(Com(32|16|8) x) => (NORconst [0] x)
(Sqrt ...) => (SQRTD ...)
(Sqrt32 ...) => (SQRTF ...)
// TODO: optimize this case?
(Ctz32NonZero ...) => (Ctz32 ...)
// count trailing zero
// 32 - CLZ(x&-x - 1)
(Ctz32 <t> x) => (SUB (MOVWconst [32]) (CLZ <t> (SUBconst <t> [1] (AND <t> x (NEG <t> x)))))
// bit length
(BitLen32 <t> x) => (SUB (MOVWconst [32]) (CLZ <t> x))
// boolean ops -- booleans are represented with 0=false, 1=true
(AndB ...) => (AND ...)
(OrB ...) => (OR ...)
(EqB x y) => (XORconst [1] (XOR <typ.Bool> x y))
(NeqB ...) => (XOR ...)
(Not x) => (XORconst [1] x)
// constants
(Const(32|16|8) [val]) => (MOVWconst [int32(val)])
(Const(32|64)F ...) => (MOV(F|D)const ...)
(ConstNil) => (MOVWconst [0])
(ConstBool [b]) => (MOVWconst [b2i32(b)])
// truncations
// Because we ignore high parts of registers, truncates are just copies.
(Trunc16to8 ...) => (Copy ...)
(Trunc32to8 ...) => (Copy ...)
(Trunc32to16 ...) => (Copy ...)
// Zero-/Sign-extensions
(ZeroExt8to16 ...) => (MOVBUreg ...)
(ZeroExt8to32 ...) => (MOVBUreg ...)
(ZeroExt16to32 ...) => (MOVHUreg ...)
(SignExt8to16 ...) => (MOVBreg ...)
(SignExt8to32 ...) => (MOVBreg ...)
(SignExt16to32 ...) => (MOVHreg ...)
(Signmask x) => (SRAconst x [31])
(Zeromask x) => (NEG (SGTU x (MOVWconst [0])))
(Slicemask <t> x) => (SRAconst (NEG <t> x) [31])
// float-int conversion
(Cvt32to(32|64)F ...) => (MOVW(F|D) ...)
(Cvt(32|64)Fto32 ...) => (TRUNC(F|D)W ...)
(Cvt32Fto64F ...) => (MOVFD ...)
(Cvt64Fto32F ...) => (MOVDF ...)
(CvtBoolToUint8 ...) => (Copy ...)
(Round(32|64)F ...) => (Copy ...)
// comparisons
(Eq8 x y) => (SGTUconst [1] (XOR (ZeroExt8to32 x) (ZeroExt8to32 y)))
(Eq16 x y) => (SGTUconst [1] (XOR (ZeroExt16to32 x) (ZeroExt16to32 y)))
(Eq32 x y) => (SGTUconst [1] (XOR x y))
(EqPtr x y) => (SGTUconst [1] (XOR x y))
(Eq(32|64)F x y) => (FPFlagTrue (CMPEQ(F|D) x y))
(Neq8 x y) => (SGTU (XOR (ZeroExt8to32 x) (ZeroExt8to32 y)) (MOVWconst [0]))
(Neq16 x y) => (SGTU (XOR (ZeroExt16to32 x) (ZeroExt16to32 y)) (MOVWconst [0]))
(Neq32 x y) => (SGTU (XOR x y) (MOVWconst [0]))
(NeqPtr x y) => (SGTU (XOR x y) (MOVWconst [0]))
(Neq(32|64)F x y) => (FPFlagFalse (CMPEQ(F|D) x y))
(Less8 x y) => (SGT (SignExt8to32 y) (SignExt8to32 x))
(Less16 x y) => (SGT (SignExt16to32 y) (SignExt16to32 x))
(Less32 x y) => (SGT y x)
(Less(32|64)F x y) => (FPFlagTrue (CMPGT(F|D) y x)) // reverse operands to work around NaN
(Less8U x y) => (SGTU (ZeroExt8to32 y) (ZeroExt8to32 x))
(Less16U x y) => (SGTU (ZeroExt16to32 y) (ZeroExt16to32 x))
(Less32U x y) => (SGTU y x)
(Leq8 x y) => (XORconst [1] (SGT (SignExt8to32 x) (SignExt8to32 y)))
(Leq16 x y) => (XORconst [1] (SGT (SignExt16to32 x) (SignExt16to32 y)))
(Leq32 x y) => (XORconst [1] (SGT x y))
(Leq(32|64)F x y) => (FPFlagTrue (CMPGE(F|D) y x)) // reverse operands to work around NaN
(Leq8U x y) => (XORconst [1] (SGTU (ZeroExt8to32 x) (ZeroExt8to32 y)))
(Leq16U x y) => (XORconst [1] (SGTU (ZeroExt16to32 x) (ZeroExt16to32 y)))
(Leq32U x y) => (XORconst [1] (SGTU x y))
(OffPtr [off] ptr:(SP)) => (MOVWaddr [int32(off)] ptr)
(OffPtr [off] ptr) => (ADDconst [int32(off)] ptr)
(Addr {sym} base) => (MOVWaddr {sym} base)
(LocalAddr {sym} base _) => (MOVWaddr {sym} base)
// loads
(Load <t> ptr mem) && t.IsBoolean() => (MOVBUload ptr mem)
(Load <t> ptr mem) && (is8BitInt(t) && isSigned(t)) => (MOVBload ptr mem)
(Load <t> ptr mem) && (is8BitInt(t) && !isSigned(t)) => (MOVBUload ptr mem)
(Load <t> ptr mem) && (is16BitInt(t) && isSigned(t)) => (MOVHload ptr mem)
(Load <t> ptr mem) && (is16BitInt(t) && !isSigned(t)) => (MOVHUload ptr mem)
(Load <t> ptr mem) && (is32BitInt(t) || isPtr(t)) => (MOVWload ptr mem)
(Load <t> ptr mem) && is32BitFloat(t) => (MOVFload ptr mem)
(Load <t> ptr mem) && is64BitFloat(t) => (MOVDload 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() == 4 && is32BitFloat(val.Type) => (MOVFstore ptr val mem)
(Store {t} ptr val mem) && t.Size() == 8 && is64BitFloat(val.Type) => (MOVDstore ptr val mem)
// zero instructions
(Zero [0] _ mem) => mem
(Zero [1] ptr mem) => (MOVBstore ptr (MOVWconst [0]) mem)
(Zero [2] {t} ptr mem) && t.Alignment()%2 == 0 =>
(MOVHstore ptr (MOVWconst [0]) mem)
(Zero [2] ptr mem) =>
(MOVBstore [1] ptr (MOVWconst [0])
(MOVBstore [0] ptr (MOVWconst [0]) mem))
(Zero [4] {t} ptr mem) && t.Alignment()%4 == 0 =>
(MOVWstore ptr (MOVWconst [0]) mem)
(Zero [4] {t} ptr mem) && t.Alignment()%2 == 0 =>
(MOVHstore [2] ptr (MOVWconst [0])
(MOVHstore [0] ptr (MOVWconst [0]) mem))
(Zero [4] ptr mem) =>
(MOVBstore [3] ptr (MOVWconst [0])
(MOVBstore [2] ptr (MOVWconst [0])
(MOVBstore [1] ptr (MOVWconst [0])
(MOVBstore [0] ptr (MOVWconst [0]) mem))))
(Zero [3] ptr mem) =>
(MOVBstore [2] ptr (MOVWconst [0])
(MOVBstore [1] ptr (MOVWconst [0])
(MOVBstore [0] ptr (MOVWconst [0]) mem)))
(Zero [6] {t} ptr mem) && t.Alignment()%2 == 0 =>
(MOVHstore [4] ptr (MOVWconst [0])
(MOVHstore [2] ptr (MOVWconst [0])
(MOVHstore [0] ptr (MOVWconst [0]) mem)))
(Zero [8] {t} ptr mem) && t.Alignment()%4 == 0 =>
(MOVWstore [4] ptr (MOVWconst [0])
(MOVWstore [0] ptr (MOVWconst [0]) mem))
(Zero [12] {t} ptr mem) && t.Alignment()%4 == 0 =>
(MOVWstore [8] ptr (MOVWconst [0])
(MOVWstore [4] ptr (MOVWconst [0])
(MOVWstore [0] ptr (MOVWconst [0]) mem)))
(Zero [16] {t} ptr mem) && t.Alignment()%4 == 0 =>
(MOVWstore [12] ptr (MOVWconst [0])
(MOVWstore [8] ptr (MOVWconst [0])
(MOVWstore [4] ptr (MOVWconst [0])
(MOVWstore [0] ptr (MOVWconst [0]) mem))))
// large or unaligned zeroing uses a loop
(Zero [s] {t} ptr mem)
&& (s > 16 || t.Alignment()%4 != 0) =>
(LoweredZero [int32(t.Alignment())]
ptr
(ADDconst <ptr.Type> ptr [int32(s-moveSize(t.Alignment(), config))])
mem)
// moves
(Move [0] _ _ mem) => mem
(Move [1] dst src mem) => (MOVBstore dst (MOVBUload src mem) mem)
(Move [2] {t} dst src mem) && t.Alignment()%2 == 0 =>
(MOVHstore dst (MOVHUload src mem) mem)
(Move [2] dst src mem) =>
(MOVBstore [1] dst (MOVBUload [1] src mem)
(MOVBstore dst (MOVBUload src mem) mem))
(Move [4] {t} dst src mem) && t.Alignment()%4 == 0 =>
(MOVWstore dst (MOVWload src mem) mem)
(Move [4] {t} dst src mem) && t.Alignment()%2 == 0 =>
(MOVHstore [2] dst (MOVHUload [2] src mem)
(MOVHstore dst (MOVHUload src mem) mem))
(Move [4] dst src mem) =>
(MOVBstore [3] dst (MOVBUload [3] src mem)
(MOVBstore [2] dst (MOVBUload [2] src mem)
(MOVBstore [1] dst (MOVBUload [1] src mem)
(MOVBstore dst (MOVBUload src mem) mem))))
(Move [3] dst src mem) =>
(MOVBstore [2] dst (MOVBUload [2] src mem)
(MOVBstore [1] dst (MOVBUload [1] src mem)
(MOVBstore dst (MOVBUload src mem) mem)))
(Move [8] {t} dst src mem) && t.Alignment()%4 == 0 =>
(MOVWstore [4] dst (MOVWload [4] src mem)
(MOVWstore dst (MOVWload src mem) mem))
(Move [8] {t} dst src mem) && t.Alignment()%2 == 0 =>
(MOVHstore [6] dst (MOVHload [6] src mem)
(MOVHstore [4] dst (MOVHload [4] src mem)
(MOVHstore [2] dst (MOVHload [2] src mem)
(MOVHstore dst (MOVHload src mem) mem))))
(Move [6] {t} dst src mem) && t.Alignment()%2 == 0 =>
(MOVHstore [4] dst (MOVHload [4] src mem)
(MOVHstore [2] dst (MOVHload [2] src mem)
(MOVHstore dst (MOVHload src mem) mem)))
(Move [12] {t} dst src mem) && t.Alignment()%4 == 0 =>
(MOVWstore [8] dst (MOVWload [8] src mem)
(MOVWstore [4] dst (MOVWload [4] src mem)
(MOVWstore dst (MOVWload src mem) mem)))
(Move [16] {t} dst src mem) && t.Alignment()%4 == 0 =>
(MOVWstore [12] dst (MOVWload [12] src mem)
(MOVWstore [8] dst (MOVWload [8] src mem)
(MOVWstore [4] dst (MOVWload [4] src mem)
(MOVWstore dst (MOVWload src mem) mem))))
// large or unaligned move uses a loop
(Move [s] {t} dst src mem)
&& (s > 16 && logLargeCopy(v, s) || t.Alignment()%4 != 0) =>
(LoweredMove [int32(t.Alignment())]
dst
src
(ADDconst <src.Type> src [int32(s-moveSize(t.Alignment(), config))])
mem)
// calls
(StaticCall ...) => (CALLstatic ...)
(ClosureCall ...) => (CALLclosure ...)
(InterCall ...) => (CALLinter ...)
// atomic intrinsics
(AtomicLoad(8|32) ...) => (LoweredAtomicLoad(8|32) ...)
(AtomicLoadPtr ...) => (LoweredAtomicLoad32 ...)
(AtomicStore(8|32) ...) => (LoweredAtomicStore(8|32) ...)
(AtomicStorePtrNoWB ...) => (LoweredAtomicStore32 ...)
(AtomicExchange32 ...) => (LoweredAtomicExchange ...)
(AtomicAdd32 ...) => (LoweredAtomicAdd ...)
(AtomicCompareAndSwap32 ...) => (LoweredAtomicCas ...)
// AtomicOr8(ptr,val) => LoweredAtomicOr(ptr&^3,uint32(val) << ((ptr & 3) * 8))
(AtomicOr8 ptr val mem) && !config.BigEndian =>
(LoweredAtomicOr (AND <typ.UInt32Ptr> (MOVWconst [^3]) ptr)
(SLL <typ.UInt32> (ZeroExt8to32 val)
(SLLconst <typ.UInt32> [3]
(ANDconst <typ.UInt32> [3] ptr))) mem)
// AtomicAnd8(ptr,val) => LoweredAtomicAnd(ptr&^3,(uint32(val) << ((ptr & 3) * 8)) | ^(uint32(0xFF) << ((ptr & 3) * 8))))
(AtomicAnd8 ptr val mem) && !config.BigEndian =>
(LoweredAtomicAnd (AND <typ.UInt32Ptr> (MOVWconst [^3]) ptr)
(OR <typ.UInt32> (SLL <typ.UInt32> (ZeroExt8to32 val)
(SLLconst <typ.UInt32> [3]
(ANDconst <typ.UInt32> [3] ptr)))
(NORconst [0] <typ.UInt32> (SLL <typ.UInt32>
(MOVWconst [0xff]) (SLLconst <typ.UInt32> [3]
(ANDconst <typ.UInt32> [3] ptr))))) mem)
// AtomicOr8(ptr,val) => LoweredAtomicOr(ptr&^3,uint32(val) << (((ptr^3) & 3) * 8))
(AtomicOr8 ptr val mem) && config.BigEndian =>
(LoweredAtomicOr (AND <typ.UInt32Ptr> (MOVWconst [^3]) ptr)
(SLL <typ.UInt32> (ZeroExt8to32 val)
(SLLconst <typ.UInt32> [3]
(ANDconst <typ.UInt32> [3]
(XORconst <typ.UInt32> [3] ptr)))) mem)
// AtomicAnd8(ptr,val) => LoweredAtomicAnd(ptr&^3,(uint32(val) << (((ptr^3) & 3) * 8)) | ^(uint32(0xFF) << (((ptr^3) & 3) * 8))))
(AtomicAnd8 ptr val mem) && config.BigEndian =>
(LoweredAtomicAnd (AND <typ.UInt32Ptr> (MOVWconst [^3]) ptr)
(OR <typ.UInt32> (SLL <typ.UInt32> (ZeroExt8to32 val)
(SLLconst <typ.UInt32> [3]
(ANDconst <typ.UInt32> [3]
(XORconst <typ.UInt32> [3] ptr))))
(NORconst [0] <typ.UInt32> (SLL <typ.UInt32>
(MOVWconst [0xff]) (SLLconst <typ.UInt32> [3]
(ANDconst <typ.UInt32> [3]
(XORconst <typ.UInt32> [3] ptr)))))) mem)
(AtomicAnd32 ...) => (LoweredAtomicAnd ...)
(AtomicOr32 ...) => (LoweredAtomicOr ...)
// checks
(NilCheck ...) => (LoweredNilCheck ...)
(IsNonNil ptr) => (SGTU ptr (MOVWconst [0]))
(IsInBounds idx len) => (SGTU len idx)
(IsSliceInBounds idx len) => (XORconst [1] (SGTU idx len))
// pseudo-ops
(GetClosurePtr ...) => (LoweredGetClosurePtr ...)
(GetCallerSP ...) => (LoweredGetCallerSP ...)
(GetCallerPC ...) => (LoweredGetCallerPC ...)
(If cond yes no) => (NE cond yes no)
// Write barrier.
(WB ...) => (LoweredWB ...)
(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)
(PanicExtend [kind] hi lo y mem) && boundsABI(kind) == 0 => (LoweredPanicExtendA [kind] hi lo y mem)
(PanicExtend [kind] hi lo y mem) && boundsABI(kind) == 1 => (LoweredPanicExtendB [kind] hi lo y mem)
(PanicExtend [kind] hi lo y mem) && boundsABI(kind) == 2 => (LoweredPanicExtendC [kind] hi lo y mem)
// Optimizations
// Absorb boolean tests into block
(NE (FPFlagTrue cmp) yes no) => (FPT cmp yes no)
(NE (FPFlagFalse cmp) yes no) => (FPF cmp yes no)
(EQ (FPFlagTrue cmp) yes no) => (FPF cmp yes no)
(EQ (FPFlagFalse cmp) yes no) => (FPT cmp yes no)
(NE (XORconst [1] cmp:(SGT _ _)) yes no) => (EQ cmp yes no)
(NE (XORconst [1] cmp:(SGTU _ _)) yes no) => (EQ cmp yes no)
(NE (XORconst [1] cmp:(SGTconst _)) yes no) => (EQ cmp yes no)
(NE (XORconst [1] cmp:(SGTUconst _)) yes no) => (EQ cmp yes no)
(NE (XORconst [1] cmp:(SGTzero _)) yes no) => (EQ cmp yes no)
(NE (XORconst [1] cmp:(SGTUzero _)) yes no) => (EQ cmp yes no)
(EQ (XORconst [1] cmp:(SGT _ _)) yes no) => (NE cmp yes no)
(EQ (XORconst [1] cmp:(SGTU _ _)) yes no) => (NE cmp yes no)
(EQ (XORconst [1] cmp:(SGTconst _)) yes no) => (NE cmp yes no)
(EQ (XORconst [1] cmp:(SGTUconst _)) yes no) => (NE cmp yes no)
(EQ (XORconst [1] cmp:(SGTzero _)) yes no) => (NE cmp yes no)
(EQ (XORconst [1] cmp:(SGTUzero _)) yes no) => (NE cmp yes no)
(NE (SGTUconst [1] x) yes no) => (EQ x yes no)
(EQ (SGTUconst [1] x) yes no) => (NE x yes no)
(NE (SGTUzero x) yes no) => (NE x yes no)
(EQ (SGTUzero x) yes no) => (EQ x yes no)
(NE (SGTconst [0] x) yes no) => (LTZ x yes no)
(EQ (SGTconst [0] x) yes no) => (GEZ x yes no)
(NE (SGTzero x) yes no) => (GTZ x yes no)
(EQ (SGTzero x) yes no) => (LEZ x yes no)
// fold offset into address
(ADDconst [off1] (MOVWaddr [off2] {sym} ptr)) => (MOVWaddr [off1+off2] {sym} ptr)
// fold address into load/store
(MOVBload [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVBload [off1+off2] {sym} ptr mem)
(MOVBUload [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVBUload [off1+off2] {sym} ptr mem)
(MOVHload [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVHload [off1+off2] {sym} ptr mem)
(MOVHUload [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVHUload [off1+off2] {sym} ptr mem)
(MOVWload [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVWload [off1+off2] {sym} ptr mem)
(MOVFload [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVFload [off1+off2] {sym} ptr mem)
(MOVDload [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVDload [off1+off2] {sym} ptr mem)
(MOVBstore [off1] {sym} x:(ADDconst [off2] ptr) val mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVBstore [off1+off2] {sym} ptr val mem)
(MOVHstore [off1] {sym} x:(ADDconst [off2] ptr) val mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVHstore [off1+off2] {sym} ptr val mem)
(MOVWstore [off1] {sym} x:(ADDconst [off2] ptr) val mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVWstore [off1+off2] {sym} ptr val mem)
(MOVFstore [off1] {sym} x:(ADDconst [off2] ptr) val mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVFstore [off1+off2] {sym} ptr val mem)
(MOVDstore [off1] {sym} x:(ADDconst [off2] ptr) val mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVDstore [off1+off2] {sym} ptr val mem)
(MOVBstorezero [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVBstorezero [off1+off2] {sym} ptr mem)
(MOVHstorezero [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVHstorezero [off1+off2] {sym} ptr mem)
(MOVWstorezero [off1] {sym} x:(ADDconst [off2] ptr) mem) && (is16Bit(int64(off1+off2)) || x.Uses == 1) => (MOVWstorezero [off1+off2] {sym} ptr mem)
(MOVBload [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVBload [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
(MOVBUload [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVBUload [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
(MOVHload [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVHload [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
(MOVHUload [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVHUload [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
(MOVWload [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVWload [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
(MOVFload [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVFload [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
(MOVDload [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVDload [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
(MOVBstore [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) =>
(MOVBstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem)
(MOVHstore [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) =>
(MOVHstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem)
(MOVWstore [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) =>
(MOVWstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem)
(MOVFstore [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) =>
(MOVFstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem)
(MOVDstore [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) val mem) && canMergeSym(sym1,sym2) =>
(MOVDstore [off1+off2] {mergeSym(sym1,sym2)} ptr val mem)
(MOVBstorezero [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVBstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
(MOVHstorezero [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVHstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
(MOVWstorezero [off1] {sym1} (MOVWaddr [off2] {sym2} ptr) mem) && canMergeSym(sym1,sym2) =>
(MOVWstorezero [off1+off2] {mergeSym(sym1,sym2)} ptr mem)
// replace load from same location as preceding store with zero/sign extension (or copy in case of full width)
(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) => x
(MOVFload [off] {sym} ptr (MOVFstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) => x
(MOVDload [off] {sym} ptr (MOVDstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) => x
// store zero
(MOVBstore [off] {sym} ptr (MOVWconst [0]) mem) => (MOVBstorezero [off] {sym} ptr mem)
(MOVHstore [off] {sym} ptr (MOVWconst [0]) mem) => (MOVHstorezero [off] {sym} ptr mem)
(MOVWstore [off] {sym} ptr (MOVWconst [0]) mem) => (MOVWstorezero [off] {sym} ptr mem)
// don't extend after proper load
(MOVBreg x:(MOVBload _ _)) => (MOVWreg x)
(MOVBUreg x:(MOVBUload _ _)) => (MOVWreg x)
(MOVHreg x:(MOVBload _ _)) => (MOVWreg x)
(MOVHreg x:(MOVBUload _ _)) => (MOVWreg x)
(MOVHreg x:(MOVHload _ _)) => (MOVWreg x)
(MOVHUreg x:(MOVBUload _ _)) => (MOVWreg x)
(MOVHUreg x:(MOVHUload _ _)) => (MOVWreg x)
// fold double extensions
(MOVBreg x:(MOVBreg _)) => (MOVWreg x)
(MOVBUreg x:(MOVBUreg _)) => (MOVWreg x)
(MOVHreg x:(MOVBreg _)) => (MOVWreg x)
(MOVHreg x:(MOVBUreg _)) => (MOVWreg x)
(MOVHreg x:(MOVHreg _)) => (MOVWreg x)
(MOVHUreg x:(MOVBUreg _)) => (MOVWreg x)
(MOVHUreg x:(MOVHUreg _)) => (MOVWreg x)
// sign extended loads
// Note: The combined instruction must end up in the same block
// as the original load. If not, we end up making a value with
// memory type live in two different blocks, which can lead to
// multiple memory values alive simultaneously.
// Make sure we don't combine these ops if the load has another use.
// This prevents a single load from being split into multiple loads
// which then might return different values. See test/atomicload.go.
(MOVBreg <t> x:(MOVBUload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) => @x.Block (MOVBload <t> [off] {sym} ptr mem)
(MOVBUreg <t> x:(MOVBload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) => @x.Block (MOVBUload <t> [off] {sym} ptr mem)
(MOVHreg <t> x:(MOVHUload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) => @x.Block (MOVHload <t> [off] {sym} ptr mem)
(MOVHUreg <t> x:(MOVHload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) => @x.Block (MOVHUload <t> [off] {sym} ptr mem)
// fold extensions and ANDs together
(MOVBUreg (ANDconst [c] x)) => (ANDconst [c&0xff] x)
(MOVHUreg (ANDconst [c] x)) => (ANDconst [c&0xffff] x)
(MOVBreg (ANDconst [c] x)) && c & 0x80 == 0 => (ANDconst [c&0x7f] x)
(MOVHreg (ANDconst [c] x)) && c & 0x8000 == 0 => (ANDconst [c&0x7fff] 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)
(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)
(MOVWstore [off] {sym} ptr (MOVWreg x) mem) => (MOVWstore [off] {sym} ptr x mem)
// if a register move has only 1 use, just use the same register without emitting instruction
// MOVWnop doesn't emit instruction, only for ensuring the type.
(MOVWreg x) && x.Uses == 1 => (MOVWnop x)
// TODO: we should be able to get rid of MOVWnop all together.
// But for now, this is enough to get rid of lots of them.
(MOVWnop (MOVWconst [c])) => (MOVWconst [c])
// fold constant into arithmatic ops
(ADD x (MOVWconst [c])) => (ADDconst [c] x)
(SUB x (MOVWconst [c])) => (SUBconst [c] x)
(AND x (MOVWconst [c])) => (ANDconst [c] x)
(OR x (MOVWconst [c])) => (ORconst [c] x)
(XOR x (MOVWconst [c])) => (XORconst [c] x)
(NOR x (MOVWconst [c])) => (NORconst [c] x)
(SLL x (MOVWconst [c])) => (SLLconst x [c&31])
(SRL x (MOVWconst [c])) => (SRLconst x [c&31])
(SRA x (MOVWconst [c])) => (SRAconst x [c&31])
(SGT (MOVWconst [c]) x) => (SGTconst [c] x)
(SGTU (MOVWconst [c]) x) => (SGTUconst [c] x)
(SGT x (MOVWconst [0])) => (SGTzero x)
(SGTU x (MOVWconst [0])) => (SGTUzero x)
// mul with constant
(Select1 (MULTU (MOVWconst [0]) _ )) => (MOVWconst [0])
(Select0 (MULTU (MOVWconst [0]) _ )) => (MOVWconst [0])
(Select1 (MULTU (MOVWconst [1]) x )) => x
(Select0 (MULTU (MOVWconst [1]) _ )) => (MOVWconst [0])
(Select1 (MULTU (MOVWconst [-1]) x )) => (NEG <x.Type> x)
(Select0 (MULTU (MOVWconst [-1]) x )) => (CMOVZ (ADDconst <x.Type> [-1] x) (MOVWconst [0]) x)
(Select1 (MULTU (MOVWconst [c]) x )) && isPowerOfTwo64(int64(uint32(c))) => (SLLconst [int32(log2uint32(int64(c)))] x)
(Select0 (MULTU (MOVWconst [c]) x )) && isPowerOfTwo64(int64(uint32(c))) => (SRLconst [int32(32-log2uint32(int64(c)))] x)
(MUL (MOVWconst [0]) _ ) => (MOVWconst [0])
(MUL (MOVWconst [1]) x ) => x
(MUL (MOVWconst [-1]) x ) => (NEG x)
(MUL (MOVWconst [c]) x ) && isPowerOfTwo64(int64(uint32(c))) => (SLLconst [int32(log2uint32(int64(c)))] x)
// generic simplifications
(ADD x (NEG y)) => (SUB x y)
(SUB x x) => (MOVWconst [0])
(SUB (MOVWconst [0]) x) => (NEG x)
(AND x x) => x
(OR x x) => x
(XOR x x) => (MOVWconst [0])
// miscellaneous patterns generated by dec64
(AND (SGTUconst [1] x) (SGTUconst [1] y)) => (SGTUconst [1] (OR <x.Type> x y))
(OR (SGTUzero x) (SGTUzero y)) => (SGTUzero (OR <x.Type> x y))
// remove redundant *const ops
(ADDconst [0] x) => x
(SUBconst [0] x) => x
(ANDconst [0] _) => (MOVWconst [0])
(ANDconst [-1] x) => x
(ORconst [0] x) => x
(ORconst [-1] _) => (MOVWconst [-1])
(XORconst [0] x) => x
(XORconst [-1] x) => (NORconst [0] x)
// generic constant folding
(ADDconst [c] (MOVWconst [d])) => (MOVWconst [int32(c+d)])
(ADDconst [c] (ADDconst [d] x)) => (ADDconst [c+d] x)
(ADDconst [c] (SUBconst [d] x)) => (ADDconst [c-d] x)
(SUBconst [c] (MOVWconst [d])) => (MOVWconst [d-c])
(SUBconst [c] (SUBconst [d] x)) => (ADDconst [-c-d] x)
(SUBconst [c] (ADDconst [d] x)) => (ADDconst [-c+d] x)
(SLLconst [c] (MOVWconst [d])) => (MOVWconst [d<<uint32(c)])
(SRLconst [c] (MOVWconst [d])) => (MOVWconst [int32(uint32(d)>>uint32(c))])
(SRAconst [c] (MOVWconst [d])) => (MOVWconst [d>>uint32(c)])
(MUL (MOVWconst [c]) (MOVWconst [d])) => (MOVWconst [c*d])
(Select1 (MULTU (MOVWconst [c]) (MOVWconst [d]))) => (MOVWconst [int32(uint32(c)*uint32(d))])
(Select0 (MULTU (MOVWconst [c]) (MOVWconst [d]))) => (MOVWconst [int32((int64(uint32(c))*int64(uint32(d)))>>32)])
(Select1 (DIV (MOVWconst [c]) (MOVWconst [d]))) && d != 0 => (MOVWconst [c/d])
(Select1 (DIVU (MOVWconst [c]) (MOVWconst [d]))) && d != 0 => (MOVWconst [int32(uint32(c)/uint32(d))])
(Select0 (DIV (MOVWconst [c]) (MOVWconst [d]))) && d != 0 => (MOVWconst [c%d])
(Select0 (DIVU (MOVWconst [c]) (MOVWconst [d]))) && d != 0 => (MOVWconst [int32(uint32(c)%uint32(d))])
(ANDconst [c] (MOVWconst [d])) => (MOVWconst [c&d])
(ANDconst [c] (ANDconst [d] x)) => (ANDconst [c&d] x)
(ORconst [c] (MOVWconst [d])) => (MOVWconst [c|d])
(ORconst [c] (ORconst [d] x)) => (ORconst [c|d] x)
(XORconst [c] (MOVWconst [d])) => (MOVWconst [c^d])
(XORconst [c] (XORconst [d] x)) => (XORconst [c^d] x)
(NORconst [c] (MOVWconst [d])) => (MOVWconst [^(c|d)])
(NEG (MOVWconst [c])) => (MOVWconst [-c])
(MOVBreg (MOVWconst [c])) => (MOVWconst [int32(int8(c))])
(MOVBUreg (MOVWconst [c])) => (MOVWconst [int32(uint8(c))])
(MOVHreg (MOVWconst [c])) => (MOVWconst [int32(int16(c))])
(MOVHUreg (MOVWconst [c])) => (MOVWconst [int32(uint16(c))])
(MOVWreg (MOVWconst [c])) => (MOVWconst [c])
// constant comparisons
(SGTconst [c] (MOVWconst [d])) && c > d => (MOVWconst [1])
(SGTconst [c] (MOVWconst [d])) && c <= d => (MOVWconst [0])
(SGTUconst [c] (MOVWconst [d])) && uint32(c) > uint32(d) => (MOVWconst [1])
(SGTUconst [c] (MOVWconst [d])) && uint32(c) <= uint32(d) => (MOVWconst [0])
(SGTzero (MOVWconst [d])) && d > 0 => (MOVWconst [1])
(SGTzero (MOVWconst [d])) && d <= 0 => (MOVWconst [0])
(SGTUzero (MOVWconst [d])) && d != 0 => (MOVWconst [1])
(SGTUzero (MOVWconst [d])) && d == 0 => (MOVWconst [0])
// other known comparisons
(SGTconst [c] (MOVBreg _)) && 0x7f < c => (MOVWconst [1])
(SGTconst [c] (MOVBreg _)) && c <= -0x80 => (MOVWconst [0])
(SGTconst [c] (MOVBUreg _)) && 0xff < c => (MOVWconst [1])
(SGTconst [c] (MOVBUreg _)) && c < 0 => (MOVWconst [0])
(SGTUconst [c] (MOVBUreg _)) && 0xff < uint32(c) => (MOVWconst [1])
(SGTconst [c] (MOVHreg _)) && 0x7fff < c => (MOVWconst [1])
(SGTconst [c] (MOVHreg _)) && c <= -0x8000 => (MOVWconst [0])
(SGTconst [c] (MOVHUreg _)) && 0xffff < c => (MOVWconst [1])
(SGTconst [c] (MOVHUreg _)) && c < 0 => (MOVWconst [0])
(SGTUconst [c] (MOVHUreg _)) && 0xffff < uint32(c) => (MOVWconst [1])
(SGTconst [c] (ANDconst [m] _)) && 0 <= m && m < c => (MOVWconst [1])
(SGTUconst [c] (ANDconst [m] _)) && uint32(m) < uint32(c) => (MOVWconst [1])
(SGTconst [c] (SRLconst _ [d])) && 0 <= c && uint32(d) <= 31 && 0xffffffff>>uint32(d) < uint32(c) => (MOVWconst [1])
(SGTUconst [c] (SRLconst _ [d])) && uint32(d) <= 31 && 0xffffffff>>uint32(d) < uint32(c) => (MOVWconst [1])
// absorb constants into branches
(EQ (MOVWconst [0]) yes no) => (First yes no)
(EQ (MOVWconst [c]) yes no) && c != 0 => (First no yes)
(NE (MOVWconst [0]) yes no) => (First no yes)
(NE (MOVWconst [c]) yes no) && c != 0 => (First yes no)
(LTZ (MOVWconst [c]) yes no) && c < 0 => (First yes no)
(LTZ (MOVWconst [c]) yes no) && c >= 0 => (First no yes)
(LEZ (MOVWconst [c]) yes no) && c <= 0 => (First yes no)
(LEZ (MOVWconst [c]) yes no) && c > 0 => (First no yes)
(GTZ (MOVWconst [c]) yes no) && c > 0 => (First yes no)
(GTZ (MOVWconst [c]) yes no) && c <= 0 => (First no yes)
(GEZ (MOVWconst [c]) yes no) && c >= 0 => (First yes no)
(GEZ (MOVWconst [c]) yes no) && c < 0 => (First no yes)
// conditional move
(CMOVZ _ f (MOVWconst [0])) => f
(CMOVZ a _ (MOVWconst [c])) && c!=0 => a
(CMOVZzero _ (MOVWconst [0])) => (MOVWconst [0])
(CMOVZzero a (MOVWconst [c])) && c!=0 => a
(CMOVZ a (MOVWconst [0]) c) => (CMOVZzero a c)
// atomic
(LoweredAtomicStore32 ptr (MOVWconst [0]) mem) => (LoweredAtomicStorezero ptr mem)
(LoweredAtomicAdd ptr (MOVWconst [c]) mem) && is16Bit(int64(c)) => (LoweredAtomicAddconst [c] ptr mem)