| // Copyright 2015 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. |
| |
| // Lowering arithmetic |
| (Add(64|32|16|8) x y) -> (ADD(Q|L|L|L) x y) |
| (AddPtr x y) -> (ADDQ x y) |
| (Add(32|64)F x y) -> (ADDS(S|D) x y) |
| |
| (Sub(64|32|16|8) x y) -> (SUB(Q|L|L|L) x y) |
| (SubPtr x y) -> (SUBQ x y) |
| (Sub(32|64)F x y) -> (SUBS(S|D) x y) |
| |
| (Mul(64|32|16|8) x y) -> (MUL(Q|L|L|L) x y) |
| (Mul(32|64)F x y) -> (MULS(S|D) x y) |
| |
| (Select0 (Mul64uover x y)) -> (Select0 <typ.UInt64> (MULQU x y)) |
| (Select0 (Mul32uover x y)) -> (Select0 <typ.UInt32> (MULLU x y)) |
| (Select1 (Mul(64|32)uover x y)) -> (SETO (Select1 <types.TypeFlags> (MUL(Q|L)U x y))) |
| |
| (Hmul(64|32) x y) -> (HMUL(Q|L) x y) |
| (Hmul(64|32)u x y) -> (HMUL(Q|L)U x y) |
| |
| (Div(64|32|16) [a] x y) -> (Select0 (DIV(Q|L|W) [a] x y)) |
| (Div8 x y) -> (Select0 (DIVW (SignExt8to16 x) (SignExt8to16 y))) |
| (Div(64|32|16)u x y) -> (Select0 (DIV(Q|L|W)U x y)) |
| (Div8u x y) -> (Select0 (DIVWU (ZeroExt8to16 x) (ZeroExt8to16 y))) |
| (Div(32|64)F x y) -> (DIVS(S|D) x y) |
| |
| (Select0 (Add64carry x y c)) -> |
| (Select0 <typ.UInt64> (ADCQ x y (Select1 <types.TypeFlags> (NEGLflags c)))) |
| (Select1 (Add64carry x y c)) -> |
| (NEGQ <typ.UInt64> (SBBQcarrymask <typ.UInt64> (Select1 <types.TypeFlags> (ADCQ x y (Select1 <types.TypeFlags> (NEGLflags c)))))) |
| (Select0 (Sub64borrow x y c)) -> |
| (Select0 <typ.UInt64> (SBBQ x y (Select1 <types.TypeFlags> (NEGLflags c)))) |
| (Select1 (Sub64borrow x y c)) -> |
| (NEGQ <typ.UInt64> (SBBQcarrymask <typ.UInt64> (Select1 <types.TypeFlags> (SBBQ x y (Select1 <types.TypeFlags> (NEGLflags c)))))) |
| |
| // Optimize ADCQ and friends |
| (ADCQ x (MOVQconst [c]) carry) && is32Bit(c) -> (ADCQconst x [c] carry) |
| (ADCQ x y (FlagEQ)) -> (ADDQcarry x y) |
| (ADCQconst x [c] (FlagEQ)) -> (ADDQconstcarry x [c]) |
| (ADDQcarry x (MOVQconst [c])) && is32Bit(c) -> (ADDQconstcarry x [c]) |
| (SBBQ x (MOVQconst [c]) borrow) && is32Bit(c) -> (SBBQconst x [c] borrow) |
| (SBBQ x y (FlagEQ)) -> (SUBQborrow x y) |
| (SBBQconst x [c] (FlagEQ)) -> (SUBQconstborrow x [c]) |
| (SUBQborrow x (MOVQconst [c])) && is32Bit(c) -> (SUBQconstborrow x [c]) |
| (Select1 (NEGLflags (MOVQconst [0]))) -> (FlagEQ) |
| (Select1 (NEGLflags (NEGQ (SBBQcarrymask x)))) -> x |
| |
| |
| (Mul64uhilo x y) -> (MULQU2 x y) |
| (Div128u xhi xlo y) -> (DIVQU2 xhi xlo y) |
| |
| (Avg64u x y) -> (AVGQU x y) |
| |
| (Mod(64|32|16) [a] x y) -> (Select1 (DIV(Q|L|W) [a] x y)) |
| (Mod8 x y) -> (Select1 (DIVW (SignExt8to16 x) (SignExt8to16 y))) |
| (Mod(64|32|16)u x y) -> (Select1 (DIV(Q|L|W)U x y)) |
| (Mod8u x y) -> (Select1 (DIVWU (ZeroExt8to16 x) (ZeroExt8to16 y))) |
| |
| (And(64|32|16|8) x y) -> (AND(Q|L|L|L) x y) |
| (Or(64|32|16|8) x y) -> (OR(Q|L|L|L) x y) |
| (Xor(64|32|16|8) x y) -> (XOR(Q|L|L|L) x y) |
| (Com(64|32|16|8) x) -> (NOT(Q|L|L|L) x) |
| |
| (Neg(64|32|16|8) x) -> (NEG(Q|L|L|L) x) |
| (Neg32F x) -> (PXOR x (MOVSSconst <typ.Float32> [auxFrom32F(float32(math.Copysign(0, -1)))])) |
| (Neg64F x) -> (PXOR x (MOVSDconst <typ.Float64> [auxFrom64F(math.Copysign(0, -1))])) |
| |
| // Lowering boolean ops |
| (AndB x y) -> (ANDL x y) |
| (OrB x y) -> (ORL x y) |
| (Not x) -> (XORLconst [1] x) |
| |
| // Lowering pointer arithmetic |
| (OffPtr [off] ptr) && is32Bit(off) -> (ADDQconst [off] ptr) |
| (OffPtr [off] ptr) -> (ADDQ (MOVQconst [off]) ptr) |
| |
| // Lowering other arithmetic |
| (Ctz64 <t> x) -> (CMOVQEQ (Select0 <t> (BSFQ x)) (MOVQconst <t> [64]) (Select1 <types.TypeFlags> (BSFQ x))) |
| (Ctz32 x) -> (Select0 (BSFQ (BTSQconst <typ.UInt64> [32] x))) |
| (Ctz16 x) -> (BSFL (BTSLconst <typ.UInt32> [16] x)) |
| (Ctz8 x) -> (BSFL (BTSLconst <typ.UInt32> [ 8] x)) |
| |
| (Ctz64NonZero x) -> (Select0 (BSFQ x)) |
| (Ctz32NonZero x) -> (BSFL x) |
| (Ctz16NonZero x) -> (BSFL x) |
| (Ctz8NonZero x) -> (BSFL x) |
| |
| // BitLen64 of a 64 bit value x requires checking whether x == 0, since BSRQ is undefined when x == 0. |
| // However, for zero-extended values, we can cheat a bit, and calculate |
| // BSR(x<<1 + 1), which is guaranteed to be non-zero, and which conveniently |
| // places the index of the highest set bit where we want it. |
| (BitLen64 <t> x) -> (ADDQconst [1] (CMOVQEQ <t> (Select0 <t> (BSRQ x)) (MOVQconst <t> [-1]) (Select1 <types.TypeFlags> (BSRQ x)))) |
| (BitLen32 x) -> (Select0 (BSRQ (LEAQ1 <typ.UInt64> [1] (MOVLQZX <typ.UInt64> x) (MOVLQZX <typ.UInt64> x)))) |
| (BitLen16 x) -> (BSRL (LEAL1 <typ.UInt32> [1] (MOVWQZX <typ.UInt32> x) (MOVWQZX <typ.UInt32> x))) |
| (BitLen8 x) -> (BSRL (LEAL1 <typ.UInt32> [1] (MOVBQZX <typ.UInt32> x) (MOVBQZX <typ.UInt32> x))) |
| |
| (Bswap(64|32) x) -> (BSWAP(Q|L) x) |
| |
| (PopCount64 x) -> (POPCNTQ x) |
| (PopCount32 x) -> (POPCNTL x) |
| (PopCount16 x) -> (POPCNTL (MOVWQZX <typ.UInt32> x)) |
| (PopCount8 x) -> (POPCNTL (MOVBQZX <typ.UInt32> x)) |
| |
| (Sqrt x) -> (SQRTSD x) |
| |
| (RoundToEven x) -> (ROUNDSD [0] x) |
| (Floor x) -> (ROUNDSD [1] x) |
| (Ceil x) -> (ROUNDSD [2] x) |
| (Trunc x) -> (ROUNDSD [3] x) |
| (FMA x y z) -> (VFMADD231SD z x y) |
| |
| // Lowering extension |
| // Note: we always extend to 64 bits even though some ops don't need that many result bits. |
| (SignExt8to16 x) -> (MOVBQSX x) |
| (SignExt8to32 x) -> (MOVBQSX x) |
| (SignExt8to64 x) -> (MOVBQSX x) |
| (SignExt16to32 x) -> (MOVWQSX x) |
| (SignExt16to64 x) -> (MOVWQSX x) |
| (SignExt32to64 x) -> (MOVLQSX x) |
| |
| (ZeroExt8to16 x) -> (MOVBQZX x) |
| (ZeroExt8to32 x) -> (MOVBQZX x) |
| (ZeroExt8to64 x) -> (MOVBQZX x) |
| (ZeroExt16to32 x) -> (MOVWQZX x) |
| (ZeroExt16to64 x) -> (MOVWQZX x) |
| (ZeroExt32to64 x) -> (MOVLQZX x) |
| |
| (Slicemask <t> x) -> (SARQconst (NEGQ <t> x) [63]) |
| |
| // Lowering truncation |
| // Because we ignore high parts of registers, truncates are just copies. |
| (Trunc16to8 x) -> x |
| (Trunc32to8 x) -> x |
| (Trunc32to16 x) -> x |
| (Trunc64to8 x) -> x |
| (Trunc64to16 x) -> x |
| (Trunc64to32 x) -> x |
| |
| // Lowering float <-> int |
| (Cvt32to32F x) -> (CVTSL2SS x) |
| (Cvt32to64F x) -> (CVTSL2SD x) |
| (Cvt64to32F x) -> (CVTSQ2SS x) |
| (Cvt64to64F x) -> (CVTSQ2SD x) |
| |
| (Cvt32Fto32 x) -> (CVTTSS2SL x) |
| (Cvt32Fto64 x) -> (CVTTSS2SQ x) |
| (Cvt64Fto32 x) -> (CVTTSD2SL x) |
| (Cvt64Fto64 x) -> (CVTTSD2SQ x) |
| |
| (Cvt32Fto64F x) -> (CVTSS2SD x) |
| (Cvt64Fto32F x) -> (CVTSD2SS x) |
| |
| (Round(32|64)F x) -> x |
| |
| // Lowering shifts |
| // Unsigned shifts need to return 0 if shift amount is >= width of shifted value. |
| // result = (arg << shift) & (shift >= argbits ? 0 : 0xffffffffffffffff) |
| (Lsh64x(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (ANDQ (SHLQ <t> x y) (SBBQcarrymask <t> (CMP(Q|L|W|B)const y [64]))) |
| (Lsh32x(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (ANDL (SHLL <t> x y) (SBBLcarrymask <t> (CMP(Q|L|W|B)const y [32]))) |
| (Lsh16x(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (ANDL (SHLL <t> x y) (SBBLcarrymask <t> (CMP(Q|L|W|B)const y [32]))) |
| (Lsh8x(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (ANDL (SHLL <t> x y) (SBBLcarrymask <t> (CMP(Q|L|W|B)const y [32]))) |
| |
| (Lsh64x(64|32|16|8) x y) && shiftIsBounded(v) -> (SHLQ x y) |
| (Lsh32x(64|32|16|8) x y) && shiftIsBounded(v) -> (SHLL x y) |
| (Lsh16x(64|32|16|8) x y) && shiftIsBounded(v) -> (SHLL x y) |
| (Lsh8x(64|32|16|8) x y) && shiftIsBounded(v) -> (SHLL x y) |
| |
| (Rsh64Ux(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (ANDQ (SHRQ <t> x y) (SBBQcarrymask <t> (CMP(Q|L|W|B)const y [64]))) |
| (Rsh32Ux(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (ANDL (SHRL <t> x y) (SBBLcarrymask <t> (CMP(Q|L|W|B)const y [32]))) |
| (Rsh16Ux(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (ANDL (SHRW <t> x y) (SBBLcarrymask <t> (CMP(Q|L|W|B)const y [16]))) |
| (Rsh8Ux(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (ANDL (SHRB <t> x y) (SBBLcarrymask <t> (CMP(Q|L|W|B)const y [8]))) |
| |
| (Rsh64Ux(64|32|16|8) x y) && shiftIsBounded(v) -> (SHRQ x y) |
| (Rsh32Ux(64|32|16|8) x y) && shiftIsBounded(v) -> (SHRL x y) |
| (Rsh16Ux(64|32|16|8) x y) && shiftIsBounded(v) -> (SHRW x y) |
| (Rsh8Ux(64|32|16|8) x y) && shiftIsBounded(v) -> (SHRB x y) |
| |
| // Signed right shift needs to return 0/-1 if shift amount is >= width of shifted value. |
| // We implement this by setting the shift value to -1 (all ones) if the shift value is >= width. |
| (Rsh64x(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (SARQ <t> x (OR(Q|L|L|L) <y.Type> y (NOT(Q|L|L|L) <y.Type> (SBB(Q|L|L|L)carrymask <y.Type> (CMP(Q|L|W|B)const y [64]))))) |
| (Rsh32x(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (SARL <t> x (OR(Q|L|L|L) <y.Type> y (NOT(Q|L|L|L) <y.Type> (SBB(Q|L|L|L)carrymask <y.Type> (CMP(Q|L|W|B)const y [32]))))) |
| (Rsh16x(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (SARW <t> x (OR(Q|L|L|L) <y.Type> y (NOT(Q|L|L|L) <y.Type> (SBB(Q|L|L|L)carrymask <y.Type> (CMP(Q|L|W|B)const y [16]))))) |
| (Rsh8x(64|32|16|8) <t> x y) && !shiftIsBounded(v) -> (SARB <t> x (OR(Q|L|L|L) <y.Type> y (NOT(Q|L|L|L) <y.Type> (SBB(Q|L|L|L)carrymask <y.Type> (CMP(Q|L|W|B)const y [8]))))) |
| |
| (Rsh64x(64|32|16|8) x y) && shiftIsBounded(v) -> (SARQ x y) |
| (Rsh32x(64|32|16|8) x y) && shiftIsBounded(v) -> (SARL x y) |
| (Rsh16x(64|32|16|8) x y) && shiftIsBounded(v) -> (SARW x y) |
| (Rsh8x(64|32|16|8) x y) && shiftIsBounded(v) -> (SARB x y) |
| |
| // Lowering comparisons |
| (Less(64|32|16|8) x y) -> (SETL (CMP(Q|L|W|B) x y)) |
| (Less(64|32|16|8)U x y) -> (SETB (CMP(Q|L|W|B) x y)) |
| // Use SETGF with reversed operands to dodge NaN case |
| (Less(32|64)F x y) -> (SETGF (UCOMIS(S|D) y x)) |
| |
| (Leq(64|32|16|8) x y) -> (SETLE (CMP(Q|L|W|B) x y)) |
| (Leq(64|32|16|8)U x y) -> (SETBE (CMP(Q|L|W|B) x y)) |
| // Use SETGEF with reversed operands to dodge NaN case |
| (Leq(32|64)F x y) -> (SETGEF (UCOMIS(S|D) y x)) |
| |
| (Greater(64|32|16|8) x y) -> (SETG (CMP(Q|L|W|B) x y)) |
| (Greater(64|32|16|8)U x y) -> (SETA (CMP(Q|L|W|B) x y)) |
| // Note Go assembler gets UCOMISx operand order wrong, but it is right here |
| // Bug is accommodated at generation of assembly language. |
| (Greater(32|64)F x y) -> (SETGF (UCOMIS(S|D) x y)) |
| |
| (Geq(64|32|16|8) x y) -> (SETGE (CMP(Q|L|W|B) x y)) |
| (Geq(64|32|16|8)U x y) -> (SETAE (CMP(Q|L|W|B) x y)) |
| // Note Go assembler gets UCOMISx operand order wrong, but it is right here |
| // Bug is accommodated at generation of assembly language. |
| (Geq(32|64)F x y) -> (SETGEF (UCOMIS(S|D) x y)) |
| |
| (Eq(64|32|16|8|B) x y) -> (SETEQ (CMP(Q|L|W|B|B) x y)) |
| (EqPtr x y) -> (SETEQ (CMPQ x y)) |
| (Eq(32|64)F x y) -> (SETEQF (UCOMIS(S|D) x y)) |
| |
| (Neq(64|32|16|8|B) x y) -> (SETNE (CMP(Q|L|W|B|B) x y)) |
| (NeqPtr x y) -> (SETNE (CMPQ x y)) |
| (Neq(32|64)F x y) -> (SETNEF (UCOMIS(S|D) x y)) |
| |
| // Lowering loads |
| (Load <t> ptr mem) && (is64BitInt(t) || isPtr(t)) -> (MOVQload ptr mem) |
| (Load <t> ptr mem) && is32BitInt(t) -> (MOVLload ptr mem) |
| (Load <t> ptr mem) && is16BitInt(t) -> (MOVWload ptr mem) |
| (Load <t> ptr mem) && (t.IsBoolean() || is8BitInt(t)) -> (MOVBload ptr mem) |
| (Load <t> ptr mem) && is32BitFloat(t) -> (MOVSSload ptr mem) |
| (Load <t> ptr mem) && is64BitFloat(t) -> (MOVSDload ptr mem) |
| |
| // Lowering stores |
| // These more-specific FP versions of Store pattern should come first. |
| (Store {t} ptr val mem) && t.(*types.Type).Size() == 8 && is64BitFloat(val.Type) -> (MOVSDstore ptr val mem) |
| (Store {t} ptr val mem) && t.(*types.Type).Size() == 4 && is32BitFloat(val.Type) -> (MOVSSstore ptr val mem) |
| |
| (Store {t} ptr val mem) && t.(*types.Type).Size() == 8 -> (MOVQstore ptr val mem) |
| (Store {t} ptr val mem) && t.(*types.Type).Size() == 4 -> (MOVLstore ptr val mem) |
| (Store {t} ptr val mem) && t.(*types.Type).Size() == 2 -> (MOVWstore ptr val mem) |
| (Store {t} ptr val mem) && t.(*types.Type).Size() == 1 -> (MOVBstore ptr val mem) |
| |
| // Lowering moves |
| (Move [0] _ _ mem) -> mem |
| (Move [1] dst src mem) -> (MOVBstore dst (MOVBload src mem) mem) |
| (Move [2] dst src mem) -> (MOVWstore dst (MOVWload src mem) mem) |
| (Move [4] dst src mem) -> (MOVLstore dst (MOVLload src mem) mem) |
| (Move [8] dst src mem) -> (MOVQstore dst (MOVQload src mem) mem) |
| (Move [16] dst src mem) && config.useSSE -> (MOVOstore dst (MOVOload src mem) mem) |
| (Move [16] dst src mem) && !config.useSSE -> |
| (MOVQstore [8] dst (MOVQload [8] src mem) |
| (MOVQstore dst (MOVQload src mem) mem)) |
| |
| (Move [32] dst src mem) -> |
| (Move [16] |
| (OffPtr <dst.Type> dst [16]) |
| (OffPtr <src.Type> src [16]) |
| (Move [16] dst src mem)) |
| |
| (Move [48] dst src mem) && config.useSSE -> |
| (Move [32] |
| (OffPtr <dst.Type> dst [16]) |
| (OffPtr <src.Type> src [16]) |
| (Move [16] dst src mem)) |
| |
| (Move [64] dst src mem) && config.useSSE -> |
| (Move [32] |
| (OffPtr <dst.Type> dst [32]) |
| (OffPtr <src.Type> src [32]) |
| (Move [32] dst src mem)) |
| |
| (Move [3] dst src mem) -> |
| (MOVBstore [2] dst (MOVBload [2] src mem) |
| (MOVWstore dst (MOVWload src mem) mem)) |
| (Move [5] dst src mem) -> |
| (MOVBstore [4] dst (MOVBload [4] src mem) |
| (MOVLstore dst (MOVLload src mem) mem)) |
| (Move [6] dst src mem) -> |
| (MOVWstore [4] dst (MOVWload [4] src mem) |
| (MOVLstore dst (MOVLload src mem) mem)) |
| (Move [7] dst src mem) -> |
| (MOVLstore [3] dst (MOVLload [3] src mem) |
| (MOVLstore dst (MOVLload src mem) mem)) |
| (Move [9] dst src mem) -> |
| (MOVBstore [8] dst (MOVBload [8] src mem) |
| (MOVQstore dst (MOVQload src mem) mem)) |
| (Move [10] dst src mem) -> |
| (MOVWstore [8] dst (MOVWload [8] src mem) |
| (MOVQstore dst (MOVQload src mem) mem)) |
| (Move [12] dst src mem) -> |
| (MOVLstore [8] dst (MOVLload [8] src mem) |
| (MOVQstore dst (MOVQload src mem) mem)) |
| (Move [s] dst src mem) && s == 11 || s >= 13 && s <= 15 -> |
| (MOVQstore [s-8] dst (MOVQload [s-8] src mem) |
| (MOVQstore dst (MOVQload src mem) mem)) |
| |
| // Adjust moves to be a multiple of 16 bytes. |
| (Move [s] dst src mem) |
| && s > 16 && s%16 != 0 && s%16 <= 8 -> |
| (Move [s-s%16] |
| (OffPtr <dst.Type> dst [s%16]) |
| (OffPtr <src.Type> src [s%16]) |
| (MOVQstore dst (MOVQload src mem) mem)) |
| (Move [s] dst src mem) |
| && s > 16 && s%16 != 0 && s%16 > 8 && config.useSSE -> |
| (Move [s-s%16] |
| (OffPtr <dst.Type> dst [s%16]) |
| (OffPtr <src.Type> src [s%16]) |
| (MOVOstore dst (MOVOload src mem) mem)) |
| (Move [s] dst src mem) |
| && s > 16 && s%16 != 0 && s%16 > 8 && !config.useSSE -> |
| (Move [s-s%16] |
| (OffPtr <dst.Type> dst [s%16]) |
| (OffPtr <src.Type> src [s%16]) |
| (MOVQstore [8] dst (MOVQload [8] src mem) |
| (MOVQstore dst (MOVQload src mem) mem))) |
| |
| // Medium copying uses a duff device. |
| (Move [s] dst src mem) |
| && s > 64 && s <= 16*64 && s%16 == 0 |
| && !config.noDuffDevice -> |
| (DUFFCOPY [14*(64-s/16)] dst src mem) |
| // 14 and 64 are magic constants. 14 is the number of bytes to encode: |
| // MOVUPS (SI), X0 |
| // ADDQ $16, SI |
| // MOVUPS X0, (DI) |
| // ADDQ $16, DI |
| // and 64 is the number of such blocks. See src/runtime/duff_amd64.s:duffcopy. |
| |
| // Large copying uses REP MOVSQ. |
| (Move [s] dst src mem) && (s > 16*64 || config.noDuffDevice) && s%8 == 0 -> |
| (REPMOVSQ dst src (MOVQconst [s/8]) mem) |
| |
| // Lowering Zero instructions |
| (Zero [0] _ mem) -> mem |
| (Zero [1] destptr mem) -> (MOVBstoreconst [0] destptr mem) |
| (Zero [2] destptr mem) -> (MOVWstoreconst [0] destptr mem) |
| (Zero [4] destptr mem) -> (MOVLstoreconst [0] destptr mem) |
| (Zero [8] destptr mem) -> (MOVQstoreconst [0] destptr mem) |
| |
| (Zero [3] destptr mem) -> |
| (MOVBstoreconst [makeValAndOff(0,2)] destptr |
| (MOVWstoreconst [0] destptr mem)) |
| (Zero [5] destptr mem) -> |
| (MOVBstoreconst [makeValAndOff(0,4)] destptr |
| (MOVLstoreconst [0] destptr mem)) |
| (Zero [6] destptr mem) -> |
| (MOVWstoreconst [makeValAndOff(0,4)] destptr |
| (MOVLstoreconst [0] destptr mem)) |
| (Zero [7] destptr mem) -> |
| (MOVLstoreconst [makeValAndOff(0,3)] destptr |
| (MOVLstoreconst [0] destptr mem)) |
| |
| // Strip off any fractional word zeroing. |
| (Zero [s] destptr mem) && s%8 != 0 && s > 8 && !config.useSSE -> |
| (Zero [s-s%8] (OffPtr <destptr.Type> destptr [s%8]) |
| (MOVQstoreconst [0] destptr mem)) |
| |
| // Zero small numbers of words directly. |
| (Zero [16] destptr mem) && !config.useSSE -> |
| (MOVQstoreconst [makeValAndOff(0,8)] destptr |
| (MOVQstoreconst [0] destptr mem)) |
| (Zero [24] destptr mem) && !config.useSSE -> |
| (MOVQstoreconst [makeValAndOff(0,16)] destptr |
| (MOVQstoreconst [makeValAndOff(0,8)] destptr |
| (MOVQstoreconst [0] destptr mem))) |
| (Zero [32] destptr mem) && !config.useSSE -> |
| (MOVQstoreconst [makeValAndOff(0,24)] destptr |
| (MOVQstoreconst [makeValAndOff(0,16)] destptr |
| (MOVQstoreconst [makeValAndOff(0,8)] destptr |
| (MOVQstoreconst [0] destptr mem)))) |
| |
| (Zero [s] destptr mem) && s > 8 && s < 16 && config.useSSE -> |
| (MOVQstoreconst [makeValAndOff(0,s-8)] destptr |
| (MOVQstoreconst [0] destptr mem)) |
| |
| // Adjust zeros to be a multiple of 16 bytes. |
| (Zero [s] destptr mem) && s%16 != 0 && s > 16 && s%16 > 8 && config.useSSE -> |
| (Zero [s-s%16] (OffPtr <destptr.Type> destptr [s%16]) |
| (MOVOstore destptr (MOVOconst [0]) mem)) |
| |
| (Zero [s] destptr mem) && s%16 != 0 && s > 16 && s%16 <= 8 && config.useSSE -> |
| (Zero [s-s%16] (OffPtr <destptr.Type> destptr [s%16]) |
| (MOVQstoreconst [0] destptr mem)) |
| |
| (Zero [16] destptr mem) && config.useSSE -> |
| (MOVOstore destptr (MOVOconst [0]) mem) |
| (Zero [32] destptr mem) && config.useSSE -> |
| (MOVOstore (OffPtr <destptr.Type> destptr [16]) (MOVOconst [0]) |
| (MOVOstore destptr (MOVOconst [0]) mem)) |
| (Zero [48] destptr mem) && config.useSSE -> |
| (MOVOstore (OffPtr <destptr.Type> destptr [32]) (MOVOconst [0]) |
| (MOVOstore (OffPtr <destptr.Type> destptr [16]) (MOVOconst [0]) |
| (MOVOstore destptr (MOVOconst [0]) mem))) |
| (Zero [64] destptr mem) && config.useSSE -> |
| (MOVOstore (OffPtr <destptr.Type> destptr [48]) (MOVOconst [0]) |
| (MOVOstore (OffPtr <destptr.Type> destptr [32]) (MOVOconst [0]) |
| (MOVOstore (OffPtr <destptr.Type> destptr [16]) (MOVOconst [0]) |
| (MOVOstore destptr (MOVOconst [0]) mem)))) |
| |
| // Medium zeroing uses a duff device. |
| (Zero [s] destptr mem) |
| && s > 64 && s <= 1024 && s%16 == 0 && !config.noDuffDevice -> |
| (DUFFZERO [s] destptr (MOVOconst [0]) mem) |
| |
| // Large zeroing uses REP STOSQ. |
| (Zero [s] destptr mem) |
| && (s > 1024 || (config.noDuffDevice && s > 64 || !config.useSSE && s > 32)) |
| && s%8 == 0 -> |
| (REPSTOSQ destptr (MOVQconst [s/8]) (MOVQconst [0]) mem) |
| |
| // Lowering constants |
| (Const8 [val]) -> (MOVLconst [val]) |
| (Const16 [val]) -> (MOVLconst [val]) |
| (Const32 [val]) -> (MOVLconst [val]) |
| (Const64 [val]) -> (MOVQconst [val]) |
| (Const32F [val]) -> (MOVSSconst [val]) |
| (Const64F [val]) -> (MOVSDconst [val]) |
| (ConstNil) -> (MOVQconst [0]) |
| (ConstBool [b]) -> (MOVLconst [b]) |
| |
| // Lowering calls |
| (StaticCall [argwid] {target} mem) -> (CALLstatic [argwid] {target} mem) |
| (ClosureCall [argwid] entry closure mem) -> (CALLclosure [argwid] entry closure mem) |
| (InterCall [argwid] entry mem) -> (CALLinter [argwid] entry mem) |
| |
| // Lowering conditional moves |
| // If the condition is a SETxx, we can just run a CMOV from the comparison that was |
| // setting the flags. |
| // Legend: HI=unsigned ABOVE, CS=unsigned BELOW, CC=unsigned ABOVE EQUAL, LS=unsigned BELOW EQUAL |
| (CondSelect <t> x y (SET(EQ|NE|L|G|LE|GE|A|B|AE|BE|EQF|NEF|GF|GEF) cond)) && (is64BitInt(t) || isPtr(t)) |
| -> (CMOVQ(EQ|NE|LT|GT|LE|GE|HI|CS|CC|LS|EQF|NEF|GTF|GEF) y x cond) |
| (CondSelect <t> x y (SET(EQ|NE|L|G|LE|GE|A|B|AE|BE|EQF|NEF|GF|GEF) cond)) && is32BitInt(t) |
| -> (CMOVL(EQ|NE|LT|GT|LE|GE|HI|CS|CC|LS|EQF|NEF|GTF|GEF) y x cond) |
| (CondSelect <t> x y (SET(EQ|NE|L|G|LE|GE|A|B|AE|BE|EQF|NEF|GF|GEF) cond)) && is16BitInt(t) |
| -> (CMOVW(EQ|NE|LT|GT|LE|GE|HI|CS|CC|LS|EQF|NEF|GTF|GEF) y x cond) |
| |
| // If the condition does not set the flags, we need to generate a comparison. |
| (CondSelect <t> x y check) && !check.Type.IsFlags() && check.Type.Size() == 1 |
| -> (CondSelect <t> x y (MOVBQZX <typ.UInt64> check)) |
| (CondSelect <t> x y check) && !check.Type.IsFlags() && check.Type.Size() == 2 |
| -> (CondSelect <t> x y (MOVWQZX <typ.UInt64> check)) |
| (CondSelect <t> x y check) && !check.Type.IsFlags() && check.Type.Size() == 4 |
| -> (CondSelect <t> x y (MOVLQZX <typ.UInt64> check)) |
| |
| (CondSelect <t> x y check) && !check.Type.IsFlags() && check.Type.Size() == 8 && (is64BitInt(t) || isPtr(t)) |
| -> (CMOVQNE y x (CMPQconst [0] check)) |
| (CondSelect <t> x y check) && !check.Type.IsFlags() && check.Type.Size() == 8 && is32BitInt(t) |
| -> (CMOVLNE y x (CMPQconst [0] check)) |
| (CondSelect <t> x y check) && !check.Type.IsFlags() && check.Type.Size() == 8 && is16BitInt(t) |
| -> (CMOVWNE y x (CMPQconst [0] check)) |
| |
| // Absorb InvertFlags |
| (CMOVQ(EQ|NE|LT|GT|LE|GE|HI|CS|CC|LS) x y (InvertFlags cond)) |
| -> (CMOVQ(EQ|NE|GT|LT|GE|LE|CS|HI|LS|CC) x y cond) |
| (CMOVL(EQ|NE|LT|GT|LE|GE|HI|CS|CC|LS) x y (InvertFlags cond)) |
| -> (CMOVL(EQ|NE|GT|LT|GE|LE|CS|HI|LS|CC) x y cond) |
| (CMOVW(EQ|NE|LT|GT|LE|GE|HI|CS|CC|LS) x y (InvertFlags cond)) |
| -> (CMOVW(EQ|NE|GT|LT|GE|LE|CS|HI|LS|CC) x y cond) |
| |
| // Absorb constants generated during lower |
| (CMOV(QEQ|QLE|QGE|QCC|QLS|LEQ|LLE|LGE|LCC|LLS|WEQ|WLE|WGE|WCC|WLS) _ x (FlagEQ)) -> x |
| (CMOV(QNE|QLT|QGT|QCS|QHI|LNE|LLT|LGT|LCS|LHI|WNE|WLT|WGT|WCS|WHI) y _ (FlagEQ)) -> y |
| (CMOV(QNE|QGT|QGE|QHI|QCC|LNE|LGT|LGE|LHI|LCC|WNE|WGT|WGE|WHI|WCC) _ x (FlagGT_UGT)) -> x |
| (CMOV(QEQ|QLE|QLT|QLS|QCS|LEQ|LLE|LLT|LLS|LCS|WEQ|WLE|WLT|WLS|WCS) y _ (FlagGT_UGT)) -> y |
| (CMOV(QNE|QGT|QGE|QLS|QCS|LNE|LGT|LGE|LLS|LCS|WNE|WGT|WGE|WLS|WCS) _ x (FlagGT_ULT)) -> x |
| (CMOV(QEQ|QLE|QLT|QHI|QCC|LEQ|LLE|LLT|LHI|LCC|WEQ|WLE|WLT|WHI|WCC) y _ (FlagGT_ULT)) -> y |
| (CMOV(QNE|QLT|QLE|QCS|QLS|LNE|LLT|LLE|LCS|LLS|WNE|WLT|WLE|WCS|WLS) _ x (FlagLT_ULT)) -> x |
| (CMOV(QEQ|QGT|QGE|QHI|QCC|LEQ|LGT|LGE|LHI|LCC|WEQ|WGT|WGE|WHI|WCC) y _ (FlagLT_ULT)) -> y |
| (CMOV(QNE|QLT|QLE|QHI|QCC|LNE|LLT|LLE|LHI|LCC|WNE|WLT|WLE|WHI|WCC) _ x (FlagLT_UGT)) -> x |
| (CMOV(QEQ|QGT|QGE|QCS|QLS|LEQ|LGT|LGE|LCS|LLS|WEQ|WGT|WGE|WCS|WLS) y _ (FlagLT_UGT)) -> y |
| |
| // Miscellaneous |
| (IsNonNil p) -> (SETNE (TESTQ p p)) |
| (IsInBounds idx len) -> (SETB (CMPQ idx len)) |
| (IsSliceInBounds idx len) -> (SETBE (CMPQ idx len)) |
| (NilCheck ptr mem) -> (LoweredNilCheck ptr mem) |
| (GetG mem) -> (LoweredGetG mem) |
| (GetClosurePtr) -> (LoweredGetClosurePtr) |
| (GetCallerPC) -> (LoweredGetCallerPC) |
| (GetCallerSP) -> (LoweredGetCallerSP) |
| (Addr {sym} base) -> (LEAQ {sym} base) |
| (LocalAddr {sym} base _) -> (LEAQ {sym} base) |
| |
| (MOVBstore [off] {sym} ptr y:(SETL x) mem) && y.Uses == 1 -> (SETLstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr y:(SETLE x) mem) && y.Uses == 1 -> (SETLEstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr y:(SETG x) mem) && y.Uses == 1 -> (SETGstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr y:(SETGE x) mem) && y.Uses == 1 -> (SETGEstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr y:(SETEQ x) mem) && y.Uses == 1 -> (SETEQstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr y:(SETNE x) mem) && y.Uses == 1 -> (SETNEstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr y:(SETB x) mem) && y.Uses == 1 -> (SETBstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr y:(SETBE x) mem) && y.Uses == 1 -> (SETBEstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr y:(SETA x) mem) && y.Uses == 1 -> (SETAstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr y:(SETAE x) mem) && y.Uses == 1 -> (SETAEstore [off] {sym} ptr x mem) |
| |
| // block rewrites |
| (If (SETL cmp) yes no) -> (LT cmp yes no) |
| (If (SETLE cmp) yes no) -> (LE cmp yes no) |
| (If (SETG cmp) yes no) -> (GT cmp yes no) |
| (If (SETGE cmp) yes no) -> (GE cmp yes no) |
| (If (SETEQ cmp) yes no) -> (EQ cmp yes no) |
| (If (SETNE cmp) yes no) -> (NE cmp yes no) |
| (If (SETB cmp) yes no) -> (ULT cmp yes no) |
| (If (SETBE cmp) yes no) -> (ULE cmp yes no) |
| (If (SETA cmp) yes no) -> (UGT cmp yes no) |
| (If (SETAE cmp) yes no) -> (UGE cmp yes no) |
| (If (SETO cmp) yes no) -> (OS cmp yes no) |
| |
| // Special case for floating point - LF/LEF not generated |
| (If (SETGF cmp) yes no) -> (UGT cmp yes no) |
| (If (SETGEF cmp) yes no) -> (UGE cmp yes no) |
| (If (SETEQF cmp) yes no) -> (EQF cmp yes no) |
| (If (SETNEF cmp) yes no) -> (NEF cmp yes no) |
| |
| (If cond yes no) -> (NE (TESTB cond cond) yes no) |
| |
| // Atomic loads. Other than preserving their ordering with respect to other loads, nothing special here. |
| (AtomicLoad8 ptr mem) -> (MOVBatomicload ptr mem) |
| (AtomicLoad32 ptr mem) -> (MOVLatomicload ptr mem) |
| (AtomicLoad64 ptr mem) -> (MOVQatomicload ptr mem) |
| (AtomicLoadPtr ptr mem) -> (MOVQatomicload ptr mem) |
| |
| // Atomic stores. We use XCHG to prevent the hardware reordering a subsequent load. |
| // TODO: most runtime uses of atomic stores don't need that property. Use normal stores for those? |
| (AtomicStore8 ptr val mem) -> (Select1 (XCHGB <types.NewTuple(typ.UInt8,types.TypeMem)> val ptr mem)) |
| (AtomicStore32 ptr val mem) -> (Select1 (XCHGL <types.NewTuple(typ.UInt32,types.TypeMem)> val ptr mem)) |
| (AtomicStore64 ptr val mem) -> (Select1 (XCHGQ <types.NewTuple(typ.UInt64,types.TypeMem)> val ptr mem)) |
| (AtomicStorePtrNoWB ptr val mem) -> (Select1 (XCHGQ <types.NewTuple(typ.BytePtr,types.TypeMem)> val ptr mem)) |
| |
| // Atomic exchanges. |
| (AtomicExchange32 ptr val mem) -> (XCHGL val ptr mem) |
| (AtomicExchange64 ptr val mem) -> (XCHGQ val ptr mem) |
| |
| // Atomic adds. |
| (AtomicAdd32 ptr val mem) -> (AddTupleFirst32 val (XADDLlock val ptr mem)) |
| (AtomicAdd64 ptr val mem) -> (AddTupleFirst64 val (XADDQlock val ptr mem)) |
| (Select0 <t> (AddTupleFirst32 val tuple)) -> (ADDL val (Select0 <t> tuple)) |
| (Select1 (AddTupleFirst32 _ tuple)) -> (Select1 tuple) |
| (Select0 <t> (AddTupleFirst64 val tuple)) -> (ADDQ val (Select0 <t> tuple)) |
| (Select1 (AddTupleFirst64 _ tuple)) -> (Select1 tuple) |
| |
| // Atomic compare and swap. |
| (AtomicCompareAndSwap32 ptr old new_ mem) -> (CMPXCHGLlock ptr old new_ mem) |
| (AtomicCompareAndSwap64 ptr old new_ mem) -> (CMPXCHGQlock ptr old new_ mem) |
| |
| // Atomic memory updates. |
| (AtomicAnd8 ptr val mem) -> (ANDBlock ptr val mem) |
| (AtomicOr8 ptr val mem) -> (ORBlock ptr val mem) |
| |
| // Write barrier. |
| (WB {fn} destptr srcptr mem) -> (LoweredWB {fn} destptr srcptr 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) |
| |
| // *************************** |
| // Above: lowering rules |
| // Below: optimizations |
| // *************************** |
| // TODO: Should the optimizations be a separate pass? |
| |
| // Fold boolean tests into blocks |
| (NE (TESTB (SETL cmp) (SETL cmp)) yes no) -> (LT cmp yes no) |
| (NE (TESTB (SETLE cmp) (SETLE cmp)) yes no) -> (LE cmp yes no) |
| (NE (TESTB (SETG cmp) (SETG cmp)) yes no) -> (GT cmp yes no) |
| (NE (TESTB (SETGE cmp) (SETGE cmp)) yes no) -> (GE cmp yes no) |
| (NE (TESTB (SETEQ cmp) (SETEQ cmp)) yes no) -> (EQ cmp yes no) |
| (NE (TESTB (SETNE cmp) (SETNE cmp)) yes no) -> (NE cmp yes no) |
| (NE (TESTB (SETB cmp) (SETB cmp)) yes no) -> (ULT cmp yes no) |
| (NE (TESTB (SETBE cmp) (SETBE cmp)) yes no) -> (ULE cmp yes no) |
| (NE (TESTB (SETA cmp) (SETA cmp)) yes no) -> (UGT cmp yes no) |
| (NE (TESTB (SETAE cmp) (SETAE cmp)) yes no) -> (UGE cmp yes no) |
| (NE (TESTB (SETO cmp) (SETO cmp)) yes no) -> (OS cmp yes no) |
| |
| // Recognize bit tests: a&(1<<b) != 0 for b suitably bounded |
| // Note that BTx instructions use the carry bit, so we need to convert tests for zero flag |
| // into tests for carry flags. |
| // ULT and SETB check the carry flag; they are identical to CS and SETCS. Same, mutatis |
| // mutandis, for UGE and SETAE, and CC and SETCC. |
| ((NE|EQ) (TESTL (SHLL (MOVLconst [1]) x) y)) -> ((ULT|UGE) (BTL x y)) |
| ((NE|EQ) (TESTQ (SHLQ (MOVQconst [1]) x) y)) -> ((ULT|UGE) (BTQ x y)) |
| ((NE|EQ) (TESTLconst [c] x)) && isUint32PowerOfTwo(c) |
| -> ((ULT|UGE) (BTLconst [log2uint32(c)] x)) |
| ((NE|EQ) (TESTQconst [c] x)) && isUint64PowerOfTwo(c) |
| -> ((ULT|UGE) (BTQconst [log2(c)] x)) |
| ((NE|EQ) (TESTQ (MOVQconst [c]) x)) && isUint64PowerOfTwo(c) |
| -> ((ULT|UGE) (BTQconst [log2(c)] x)) |
| (SET(NE|EQ) (TESTL (SHLL (MOVLconst [1]) x) y)) -> (SET(B|AE) (BTL x y)) |
| (SET(NE|EQ) (TESTQ (SHLQ (MOVQconst [1]) x) y)) -> (SET(B|AE) (BTQ x y)) |
| (SET(NE|EQ) (TESTLconst [c] x)) && isUint32PowerOfTwo(c) |
| -> (SET(B|AE) (BTLconst [log2uint32(c)] x)) |
| (SET(NE|EQ) (TESTQconst [c] x)) && isUint64PowerOfTwo(c) |
| -> (SET(B|AE) (BTQconst [log2(c)] x)) |
| (SET(NE|EQ) (TESTQ (MOVQconst [c]) x)) && isUint64PowerOfTwo(c) |
| -> (SET(B|AE) (BTQconst [log2(c)] x)) |
| // SET..store variant |
| (SET(NE|EQ)store [off] {sym} ptr (TESTL (SHLL (MOVLconst [1]) x) y) mem) |
| -> (SET(B|AE)store [off] {sym} ptr (BTL x y) mem) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTQ (SHLQ (MOVQconst [1]) x) y) mem) |
| -> (SET(B|AE)store [off] {sym} ptr (BTQ x y) mem) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTLconst [c] x) mem) && isUint32PowerOfTwo(c) |
| -> (SET(B|AE)store [off] {sym} ptr (BTLconst [log2uint32(c)] x) mem) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTQconst [c] x) mem) && isUint64PowerOfTwo(c) |
| -> (SET(B|AE)store [off] {sym} ptr (BTQconst [log2(c)] x) mem) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTQ (MOVQconst [c]) x) mem) && isUint64PowerOfTwo(c) |
| -> (SET(B|AE)store [off] {sym} ptr (BTQconst [log2(c)] x) mem) |
| |
| // Handle bit-testing in the form (a>>b)&1 != 0 by building the above rules |
| // and further combining shifts. |
| (BT(Q|L)const [c] (SHRQconst [d] x)) && (c+d)<64 -> (BTQconst [c+d] x) |
| (BT(Q|L)const [c] (SHLQconst [d] x)) && c>d -> (BT(Q|L)const [c-d] x) |
| (BT(Q|L)const [0] s:(SHRQ x y)) -> (BTQ y x) |
| (BTLconst [c] (SHRLconst [d] x)) && (c+d)<32 -> (BTLconst [c+d] x) |
| (BTLconst [c] (SHLLconst [d] x)) && c>d -> (BTLconst [c-d] x) |
| (BTLconst [0] s:(SHRL x y)) -> (BTL y x) |
| |
| // Rewrite a & 1 != 1 into a & 1 == 0. |
| // Among other things, this lets us turn (a>>b)&1 != 1 into a bit test. |
| (SET(NE|EQ) (CMPLconst [1] s:(ANDLconst [1] _))) -> (SET(EQ|NE) (CMPLconst [0] s)) |
| (SET(NE|EQ)store [off] {sym} ptr (CMPLconst [1] s:(ANDLconst [1] _)) mem) -> (SET(EQ|NE)store [off] {sym} ptr (CMPLconst [0] s) mem) |
| (SET(NE|EQ) (CMPQconst [1] s:(ANDQconst [1] _))) -> (SET(EQ|NE) (CMPQconst [0] s)) |
| (SET(NE|EQ)store [off] {sym} ptr (CMPQconst [1] s:(ANDQconst [1] _)) mem) -> (SET(EQ|NE)store [off] {sym} ptr (CMPQconst [0] s) mem) |
| |
| // Recognize bit setting (a |= 1<<b) and toggling (a ^= 1<<b) |
| (OR(Q|L) (SHL(Q|L) (MOV(Q|L)const [1]) y) x) -> (BTS(Q|L) x y) |
| (XOR(Q|L) (SHL(Q|L) (MOV(Q|L)const [1]) y) x) -> (BTC(Q|L) x y) |
| |
| // Convert ORconst into BTS, if the code gets smaller, with boundary being |
| // (ORL $40,AX is 3 bytes, ORL $80,AX is 6 bytes). |
| ((ORQ|XORQ)const [c] x) && isUint64PowerOfTwo(c) && uint64(c) >= 128 |
| -> (BT(S|C)Qconst [log2(c)] x) |
| ((ORL|XORL)const [c] x) && isUint32PowerOfTwo(c) && uint64(c) >= 128 |
| -> (BT(S|C)Lconst [log2uint32(c)] x) |
| ((ORQ|XORQ) (MOVQconst [c]) x) && isUint64PowerOfTwo(c) && uint64(c) >= 128 |
| -> (BT(S|C)Qconst [log2(c)] x) |
| ((ORL|XORL) (MOVLconst [c]) x) && isUint32PowerOfTwo(c) && uint64(c) >= 128 |
| -> (BT(S|C)Lconst [log2uint32(c)] x) |
| |
| // Recognize bit clearing: a &^= 1<<b |
| (AND(Q|L) (NOT(Q|L) (SHL(Q|L) (MOV(Q|L)const [1]) y)) x) -> (BTR(Q|L) x y) |
| (ANDQconst [c] x) && isUint64PowerOfTwo(^c) && uint64(^c) >= 128 |
| -> (BTRQconst [log2(^c)] x) |
| (ANDLconst [c] x) && isUint32PowerOfTwo(^c) && uint64(^c) >= 128 |
| -> (BTRLconst [log2uint32(^c)] x) |
| (ANDQ (MOVQconst [c]) x) && isUint64PowerOfTwo(^c) && uint64(^c) >= 128 |
| -> (BTRQconst [log2(^c)] x) |
| (ANDL (MOVLconst [c]) x) && isUint32PowerOfTwo(^c) && uint64(^c) >= 128 |
| -> (BTRLconst [log2uint32(^c)] x) |
| |
| // Special-case bit patterns on first/last bit. |
| // generic.rules changes ANDs of high-part/low-part masks into a couple of shifts, |
| // for instance: |
| // x & 0xFFFF0000 -> (x >> 16) << 16 |
| // x & 0x80000000 -> (x >> 31) << 31 |
| // |
| // In case the mask is just one bit (like second example above), it conflicts |
| // with the above rules to detect bit-testing / bit-clearing of first/last bit. |
| // We thus special-case them, by detecting the shift patterns. |
| |
| // Special case resetting first/last bit |
| (SHL(L|Q)const [1] (SHR(L|Q)const [1] x)) |
| -> (BTR(L|Q)const [0] x) |
| (SHRLconst [1] (SHLLconst [1] x)) |
| -> (BTRLconst [31] x) |
| (SHRQconst [1] (SHLQconst [1] x)) |
| -> (BTRQconst [63] x) |
| |
| // Special case testing first/last bit (with double-shift generated by generic.rules) |
| ((SETNE|SETEQ|NE|EQ) (TESTQ z1:(SHLQconst [63] (SHRQconst [63] x)) z2)) && z1==z2 |
| -> ((SETB|SETAE|ULT|UGE) (BTQconst [63] x)) |
| ((SETNE|SETEQ|NE|EQ) (TESTL z1:(SHLLconst [31] (SHRQconst [31] x)) z2)) && z1==z2 |
| -> ((SETB|SETAE|ULT|UGE) (BTQconst [31] x)) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTQ z1:(SHLQconst [63] (SHRQconst [63] x)) z2) mem) && z1==z2 |
| -> (SET(B|AE)store [off] {sym} ptr (BTQconst [63] x) mem) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTL z1:(SHLLconst [31] (SHRLconst [31] x)) z2) mem) && z1==z2 |
| -> (SET(B|AE)store [off] {sym} ptr (BTLconst [31] x) mem) |
| |
| ((SETNE|SETEQ|NE|EQ) (TESTQ z1:(SHRQconst [63] (SHLQconst [63] x)) z2)) && z1==z2 |
| -> ((SETB|SETAE|ULT|UGE) (BTQconst [0] x)) |
| ((SETNE|SETEQ|NE|EQ) (TESTL z1:(SHRLconst [31] (SHLLconst [31] x)) z2)) && z1==z2 |
| -> ((SETB|SETAE|ULT|UGE) (BTLconst [0] x)) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTQ z1:(SHRQconst [63] (SHLQconst [63] x)) z2) mem) && z1==z2 |
| -> (SET(B|AE)store [off] {sym} ptr (BTQconst [0] x) mem) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTL z1:(SHRLconst [31] (SHLLconst [31] x)) z2) mem) && z1==z2 |
| -> (SET(B|AE)store [off] {sym} ptr (BTLconst [0] x) mem) |
| |
| // Special-case manually testing last bit with "a>>63 != 0" (without "&1") |
| ((SETNE|SETEQ|NE|EQ) (TESTQ z1:(SHRQconst [63] x) z2)) && z1==z2 |
| -> ((SETB|SETAE|ULT|UGE) (BTQconst [63] x)) |
| ((SETNE|SETEQ|NE|EQ) (TESTL z1:(SHRLconst [31] x) z2)) && z1==z2 |
| -> ((SETB|SETAE|ULT|UGE) (BTLconst [31] x)) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTQ z1:(SHRQconst [63] x) z2) mem) && z1==z2 |
| -> (SET(B|AE)store [off] {sym} ptr (BTQconst [63] x) mem) |
| (SET(NE|EQ)store [off] {sym} ptr (TESTL z1:(SHRLconst [31] x) z2) mem) && z1==z2 |
| -> (SET(B|AE)store [off] {sym} ptr (BTLconst [31] x) mem) |
| |
| // Fold combinations of bit ops on same bit. An example is math.Copysign(c,-1) |
| (BTS(Q|L)const [c] (BTR(Q|L)const [c] x)) -> (BTS(Q|L)const [c] x) |
| (BTS(Q|L)const [c] (BTC(Q|L)const [c] x)) -> (BTS(Q|L)const [c] x) |
| (BTR(Q|L)const [c] (BTS(Q|L)const [c] x)) -> (BTR(Q|L)const [c] x) |
| (BTR(Q|L)const [c] (BTC(Q|L)const [c] x)) -> (BTR(Q|L)const [c] x) |
| |
| // Fold boolean negation into SETcc. |
| (XORLconst [1] (SETNE x)) -> (SETEQ x) |
| (XORLconst [1] (SETEQ x)) -> (SETNE x) |
| (XORLconst [1] (SETL x)) -> (SETGE x) |
| (XORLconst [1] (SETGE x)) -> (SETL x) |
| (XORLconst [1] (SETLE x)) -> (SETG x) |
| (XORLconst [1] (SETG x)) -> (SETLE x) |
| (XORLconst [1] (SETB x)) -> (SETAE x) |
| (XORLconst [1] (SETAE x)) -> (SETB x) |
| (XORLconst [1] (SETBE x)) -> (SETA x) |
| (XORLconst [1] (SETA x)) -> (SETBE x) |
| |
| // Special case for floating point - LF/LEF not generated |
| (NE (TESTB (SETGF cmp) (SETGF cmp)) yes no) -> (UGT cmp yes no) |
| (NE (TESTB (SETGEF cmp) (SETGEF cmp)) yes no) -> (UGE cmp yes no) |
| (NE (TESTB (SETEQF cmp) (SETEQF cmp)) yes no) -> (EQF cmp yes no) |
| (NE (TESTB (SETNEF cmp) (SETNEF cmp)) yes no) -> (NEF cmp yes no) |
| |
| // Disabled because it interferes with the pattern match above and makes worse code. |
| // (SETNEF x) -> (ORQ (SETNE <typ.Int8> x) (SETNAN <typ.Int8> x)) |
| // (SETEQF x) -> (ANDQ (SETEQ <typ.Int8> x) (SETORD <typ.Int8> x)) |
| |
| // fold constants into instructions |
| (ADDQ x (MOVQconst [c])) && is32Bit(c) -> (ADDQconst [c] x) |
| (ADDL x (MOVLconst [c])) -> (ADDLconst [c] x) |
| |
| (SUBQ x (MOVQconst [c])) && is32Bit(c) -> (SUBQconst x [c]) |
| (SUBQ (MOVQconst [c]) x) && is32Bit(c) -> (NEGQ (SUBQconst <v.Type> x [c])) |
| (SUBL x (MOVLconst [c])) -> (SUBLconst x [c]) |
| (SUBL (MOVLconst [c]) x) -> (NEGL (SUBLconst <v.Type> x [c])) |
| |
| (MULQ x (MOVQconst [c])) && is32Bit(c) -> (MULQconst [c] x) |
| (MULL x (MOVLconst [c])) -> (MULLconst [c] x) |
| |
| (ANDQ x (MOVQconst [c])) && is32Bit(c) -> (ANDQconst [c] x) |
| (ANDL x (MOVLconst [c])) -> (ANDLconst [c] x) |
| |
| (AND(L|Q)const [c] (AND(L|Q)const [d] x)) -> (AND(L|Q)const [c & d] x) |
| (BTR(L|Q)const [c] (AND(L|Q)const [d] x)) -> (AND(L|Q)const [d &^ (1<<uint32(c))] x) |
| (AND(L|Q)const [c] (BTR(L|Q)const [d] x)) -> (AND(L|Q)const [c &^ (1<<uint32(d))] x) |
| (BTR(L|Q)const [c] (BTR(L|Q)const [d] x)) -> (AND(L|Q)const [^(1<<uint32(c) | 1<<uint32(d))] x) |
| (XOR(L|Q)const [c] (XOR(L|Q)const [d] x)) -> (XOR(L|Q)const [c ^ d] x) |
| (BTC(L|Q)const [c] (XOR(L|Q)const [d] x)) -> (XOR(L|Q)const [d ^ 1<<uint32(c)] x) |
| (XOR(L|Q)const [c] (BTC(L|Q)const [d] x)) -> (XOR(L|Q)const [c ^ 1<<uint32(d)] x) |
| (BTC(L|Q)const [c] (BTC(L|Q)const [d] x)) -> (XOR(L|Q)const [1<<uint32(c) ^ 1<<uint32(d)] x) |
| (OR(L|Q)const [c] (OR(L|Q)const [d] x)) -> (OR(L|Q)const [c | d] x) |
| (OR(L|Q)const [c] (BTS(L|Q)const [d] x)) -> (OR(L|Q)const [c | 1<<uint32(d)] x) |
| (BTS(L|Q)const [c] (OR(L|Q)const [d] x)) -> (OR(L|Q)const [d | 1<<uint32(c)] x) |
| (BTS(L|Q)const [c] (BTS(L|Q)const [d] x)) -> (OR(L|Q)const [1<<uint32(d) | 1<<uint32(c)] x) |
| |
| (MULLconst [c] (MULLconst [d] x)) -> (MULLconst [int64(int32(c * d))] x) |
| (MULQconst [c] (MULQconst [d] x)) && is32Bit(c*d) -> (MULQconst [c * d] x) |
| |
| (ORQ x (MOVQconst [c])) && is32Bit(c) -> (ORQconst [c] x) |
| (ORL x (MOVLconst [c])) -> (ORLconst [c] x) |
| |
| (XORQ x (MOVQconst [c])) && is32Bit(c) -> (XORQconst [c] x) |
| (XORL x (MOVLconst [c])) -> (XORLconst [c] x) |
| |
| (SHLQ x (MOV(Q|L)const [c])) -> (SHLQconst [c&63] x) |
| (SHLL x (MOV(Q|L)const [c])) -> (SHLLconst [c&31] x) |
| |
| (SHRQ x (MOV(Q|L)const [c])) -> (SHRQconst [c&63] x) |
| (SHRL x (MOV(Q|L)const [c])) -> (SHRLconst [c&31] x) |
| (SHRW x (MOV(Q|L)const [c])) && c&31 < 16 -> (SHRWconst [c&31] x) |
| (SHRW _ (MOV(Q|L)const [c])) && c&31 >= 16 -> (MOVLconst [0]) |
| (SHRB x (MOV(Q|L)const [c])) && c&31 < 8 -> (SHRBconst [c&31] x) |
| (SHRB _ (MOV(Q|L)const [c])) && c&31 >= 8 -> (MOVLconst [0]) |
| |
| (SARQ x (MOV(Q|L)const [c])) -> (SARQconst [c&63] x) |
| (SARL x (MOV(Q|L)const [c])) -> (SARLconst [c&31] x) |
| (SARW x (MOV(Q|L)const [c])) -> (SARWconst [min(c&31,15)] x) |
| (SARB x (MOV(Q|L)const [c])) -> (SARBconst [min(c&31,7)] x) |
| |
| // Operations which don't affect the low 6/5 bits of the shift amount are NOPs. |
| ((SHLQ|SHRQ|SARQ) x (ADDQconst [c] y)) && c & 63 == 0 -> ((SHLQ|SHRQ|SARQ) x y) |
| ((SHLQ|SHRQ|SARQ) x (NEGQ <t> (ADDQconst [c] y))) && c & 63 == 0 -> ((SHLQ|SHRQ|SARQ) x (NEGQ <t> y)) |
| ((SHLQ|SHRQ|SARQ) x (ANDQconst [c] y)) && c & 63 == 63 -> ((SHLQ|SHRQ|SARQ) x y) |
| ((SHLQ|SHRQ|SARQ) x (NEGQ <t> (ANDQconst [c] y))) && c & 63 == 63 -> ((SHLQ|SHRQ|SARQ) x (NEGQ <t> y)) |
| |
| ((SHLL|SHRL|SARL) x (ADDQconst [c] y)) && c & 31 == 0 -> ((SHLL|SHRL|SARL) x y) |
| ((SHLL|SHRL|SARL) x (NEGQ <t> (ADDQconst [c] y))) && c & 31 == 0 -> ((SHLL|SHRL|SARL) x (NEGQ <t> y)) |
| ((SHLL|SHRL|SARL) x (ANDQconst [c] y)) && c & 31 == 31 -> ((SHLL|SHRL|SARL) x y) |
| ((SHLL|SHRL|SARL) x (NEGQ <t> (ANDQconst [c] y))) && c & 31 == 31 -> ((SHLL|SHRL|SARL) x (NEGQ <t> y)) |
| |
| ((SHLQ|SHRQ|SARQ) x (ADDLconst [c] y)) && c & 63 == 0 -> ((SHLQ|SHRQ|SARQ) x y) |
| ((SHLQ|SHRQ|SARQ) x (NEGL <t> (ADDLconst [c] y))) && c & 63 == 0 -> ((SHLQ|SHRQ|SARQ) x (NEGL <t> y)) |
| ((SHLQ|SHRQ|SARQ) x (ANDLconst [c] y)) && c & 63 == 63 -> ((SHLQ|SHRQ|SARQ) x y) |
| ((SHLQ|SHRQ|SARQ) x (NEGL <t> (ANDLconst [c] y))) && c & 63 == 63 -> ((SHLQ|SHRQ|SARQ) x (NEGL <t> y)) |
| |
| ((SHLL|SHRL|SARL) x (ADDLconst [c] y)) && c & 31 == 0 -> ((SHLL|SHRL|SARL) x y) |
| ((SHLL|SHRL|SARL) x (NEGL <t> (ADDLconst [c] y))) && c & 31 == 0 -> ((SHLL|SHRL|SARL) x (NEGL <t> y)) |
| ((SHLL|SHRL|SARL) x (ANDLconst [c] y)) && c & 31 == 31 -> ((SHLL|SHRL|SARL) x y) |
| ((SHLL|SHRL|SARL) x (NEGL <t> (ANDLconst [c] y))) && c & 31 == 31 -> ((SHLL|SHRL|SARL) x (NEGL <t> y)) |
| |
| // Constant rotate instructions |
| ((ADDQ|ORQ|XORQ) (SHLQconst x [c]) (SHRQconst x [d])) && d==64-c -> (ROLQconst x [c]) |
| ((ADDL|ORL|XORL) (SHLLconst x [c]) (SHRLconst x [d])) && d==32-c -> (ROLLconst x [c]) |
| |
| ((ADDL|ORL|XORL) <t> (SHLLconst x [c]) (SHRWconst x [d])) && d==16-c && c < 16 && t.Size() == 2 -> (ROLWconst x [c]) |
| ((ADDL|ORL|XORL) <t> (SHLLconst x [c]) (SHRBconst x [d])) && d==8-c && c < 8 && t.Size() == 1 -> (ROLBconst x [c]) |
| |
| (ROLQconst [c] (ROLQconst [d] x)) -> (ROLQconst [(c+d)&63] x) |
| (ROLLconst [c] (ROLLconst [d] x)) -> (ROLLconst [(c+d)&31] x) |
| (ROLWconst [c] (ROLWconst [d] x)) -> (ROLWconst [(c+d)&15] x) |
| (ROLBconst [c] (ROLBconst [d] x)) -> (ROLBconst [(c+d)& 7] x) |
| |
| (RotateLeft8 a b) -> (ROLB a b) |
| (RotateLeft16 a b) -> (ROLW a b) |
| (RotateLeft32 a b) -> (ROLL a b) |
| (RotateLeft64 a b) -> (ROLQ a b) |
| |
| // Non-constant rotates. |
| // We want to issue a rotate when the Go source contains code like |
| // y &= 63 |
| // x << y | x >> (64-y) |
| // The shift rules above convert << to SHLx and >> to SHRx. |
| // SHRx converts its shift argument from 64-y to -y. |
| // A tricky situation occurs when y==0. Then the original code would be: |
| // x << 0 | x >> 64 |
| // But x >> 64 is 0, not x. So there's an additional mask that is ANDed in |
| // to force the second term to 0. We don't need that mask, but we must match |
| // it in order to strip it out. |
| (ORQ (SHLQ x y) (ANDQ (SHRQ x (NEG(Q|L) y)) (SBBQcarrymask (CMP(Q|L)const (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [63]) [-64])) [64])))) -> (ROLQ x y) |
| (ORQ (SHRQ x y) (ANDQ (SHLQ x (NEG(Q|L) y)) (SBBQcarrymask (CMP(Q|L)const (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [63]) [-64])) [64])))) -> (RORQ x y) |
| |
| (ORL (SHLL x y) (ANDL (SHRL x (NEG(Q|L) y)) (SBBLcarrymask (CMP(Q|L)const (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [31]) [-32])) [32])))) -> (ROLL x y) |
| (ORL (SHRL x y) (ANDL (SHLL x (NEG(Q|L) y)) (SBBLcarrymask (CMP(Q|L)const (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [31]) [-32])) [32])))) -> (RORL x y) |
| |
| // Help with rotate detection |
| (CMPQconst (NEGQ (ADDQconst [-16] (ANDQconst [15] _))) [32]) -> (FlagLT_ULT) |
| (CMPQconst (NEGQ (ADDQconst [ -8] (ANDQconst [7] _))) [32]) -> (FlagLT_ULT) |
| |
| (ORL (SHLL x (AND(Q|L)const y [15])) |
| (ANDL (SHRW x (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [15]) [-16]))) |
| (SBBLcarrymask (CMP(Q|L)const (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [15]) [-16])) [16])))) |
| && v.Type.Size() == 2 |
| -> (ROLW x y) |
| (ORL (SHRW x (AND(Q|L)const y [15])) |
| (SHLL x (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [15]) [-16])))) |
| && v.Type.Size() == 2 |
| -> (RORW x y) |
| |
| (ORL (SHLL x (AND(Q|L)const y [ 7])) |
| (ANDL (SHRB x (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [ 7]) [ -8]))) |
| (SBBLcarrymask (CMP(Q|L)const (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [ 7]) [ -8])) [ 8])))) |
| && v.Type.Size() == 1 |
| -> (ROLB x y) |
| (ORL (SHRB x (AND(Q|L)const y [ 7])) |
| (SHLL x (NEG(Q|L) (ADD(Q|L)const (AND(Q|L)const y [ 7]) [ -8])))) |
| && v.Type.Size() == 1 |
| -> (RORB x y) |
| |
| // rotate left negative = rotate right |
| (ROLQ x (NEG(Q|L) y)) -> (RORQ x y) |
| (ROLL x (NEG(Q|L) y)) -> (RORL x y) |
| (ROLW x (NEG(Q|L) y)) -> (RORW x y) |
| (ROLB x (NEG(Q|L) y)) -> (RORB x y) |
| |
| // rotate right negative = rotate left |
| (RORQ x (NEG(Q|L) y)) -> (ROLQ x y) |
| (RORL x (NEG(Q|L) y)) -> (ROLL x y) |
| (RORW x (NEG(Q|L) y)) -> (ROLW x y) |
| (RORB x (NEG(Q|L) y)) -> (ROLB x y) |
| |
| // rotate by constants |
| (ROLQ x (MOV(Q|L)const [c])) -> (ROLQconst [c&63] x) |
| (ROLL x (MOV(Q|L)const [c])) -> (ROLLconst [c&31] x) |
| (ROLW x (MOV(Q|L)const [c])) -> (ROLWconst [c&15] x) |
| (ROLB x (MOV(Q|L)const [c])) -> (ROLBconst [c&7 ] x) |
| |
| (RORQ x (MOV(Q|L)const [c])) -> (ROLQconst [(-c)&63] x) |
| (RORL x (MOV(Q|L)const [c])) -> (ROLLconst [(-c)&31] x) |
| (RORW x (MOV(Q|L)const [c])) -> (ROLWconst [(-c)&15] x) |
| (RORB x (MOV(Q|L)const [c])) -> (ROLBconst [(-c)&7 ] x) |
| |
| // Constant shift simplifications |
| ((SHLQ|SHRQ|SARQ)const x [0]) -> x |
| ((SHLL|SHRL|SARL)const x [0]) -> x |
| ((SHRW|SARW)const x [0]) -> x |
| ((SHRB|SARB)const x [0]) -> x |
| ((ROLQ|ROLL|ROLW|ROLB)const x [0]) -> x |
| |
| // Note: the word and byte shifts keep the low 5 bits (not the low 4 or 3 bits) |
| // because the x86 instructions are defined to use all 5 bits of the shift even |
| // for the small shifts. I don't think we'll ever generate a weird shift (e.g. |
| // (SHRW x (MOVLconst [24])), but just in case. |
| |
| (CMPQ x (MOVQconst [c])) && is32Bit(c) -> (CMPQconst x [c]) |
| (CMPQ (MOVQconst [c]) x) && is32Bit(c) -> (InvertFlags (CMPQconst x [c])) |
| (CMPL x (MOVLconst [c])) -> (CMPLconst x [c]) |
| (CMPL (MOVLconst [c]) x) -> (InvertFlags (CMPLconst x [c])) |
| (CMPW x (MOVLconst [c])) -> (CMPWconst x [int64(int16(c))]) |
| (CMPW (MOVLconst [c]) x) -> (InvertFlags (CMPWconst x [int64(int16(c))])) |
| (CMPB x (MOVLconst [c])) -> (CMPBconst x [int64(int8(c))]) |
| (CMPB (MOVLconst [c]) x) -> (InvertFlags (CMPBconst x [int64(int8(c))])) |
| |
| // Using MOVZX instead of AND is cheaper. |
| (AND(Q|L)const [ 0xFF] x) -> (MOVBQZX x) |
| (AND(Q|L)const [0xFFFF] x) -> (MOVWQZX x) |
| (ANDQconst [0xFFFFFFFF] x) -> (MOVLQZX x) |
| |
| // strength reduction |
| // Assumes that the following costs from https://gmplib.org/~tege/x86-timing.pdf: |
| // 1 - addq, shlq, leaq, negq, subq |
| // 3 - imulq |
| // This limits the rewrites to two instructions. |
| // Note that negq always operates in-place, |
| // which can require a register-register move |
| // to preserve the original value, |
| // so it must be used with care. |
| (MUL(Q|L)const [-9] x) -> (NEG(Q|L) (LEA(Q|L)8 <v.Type> x x)) |
| (MUL(Q|L)const [-5] x) -> (NEG(Q|L) (LEA(Q|L)4 <v.Type> x x)) |
| (MUL(Q|L)const [-3] x) -> (NEG(Q|L) (LEA(Q|L)2 <v.Type> x x)) |
| (MUL(Q|L)const [-1] x) -> (NEG(Q|L) x) |
| (MUL(Q|L)const [ 0] _) -> (MOV(Q|L)const [0]) |
| (MUL(Q|L)const [ 1] x) -> x |
| (MUL(Q|L)const [ 3] x) -> (LEA(Q|L)2 x x) |
| (MUL(Q|L)const [ 5] x) -> (LEA(Q|L)4 x x) |
| (MUL(Q|L)const [ 7] x) -> (LEA(Q|L)2 x (LEA(Q|L)2 <v.Type> x x)) |
| (MUL(Q|L)const [ 9] x) -> (LEA(Q|L)8 x x) |
| (MUL(Q|L)const [11] x) -> (LEA(Q|L)2 x (LEA(Q|L)4 <v.Type> x x)) |
| (MUL(Q|L)const [13] x) -> (LEA(Q|L)4 x (LEA(Q|L)2 <v.Type> x x)) |
| (MUL(Q|L)const [19] x) -> (LEA(Q|L)2 x (LEA(Q|L)8 <v.Type> x x)) |
| (MUL(Q|L)const [21] x) -> (LEA(Q|L)4 x (LEA(Q|L)4 <v.Type> x x)) |
| (MUL(Q|L)const [25] x) -> (LEA(Q|L)8 x (LEA(Q|L)2 <v.Type> x x)) |
| (MUL(Q|L)const [27] x) -> (LEA(Q|L)8 (LEA(Q|L)2 <v.Type> x x) (LEA(Q|L)2 <v.Type> x x)) |
| (MUL(Q|L)const [37] x) -> (LEA(Q|L)4 x (LEA(Q|L)8 <v.Type> x x)) |
| (MUL(Q|L)const [41] x) -> (LEA(Q|L)8 x (LEA(Q|L)4 <v.Type> x x)) |
| (MUL(Q|L)const [45] x) -> (LEA(Q|L)8 (LEA(Q|L)4 <v.Type> x x) (LEA(Q|L)4 <v.Type> x x)) |
| (MUL(Q|L)const [73] x) -> (LEA(Q|L)8 x (LEA(Q|L)8 <v.Type> x x)) |
| (MUL(Q|L)const [81] x) -> (LEA(Q|L)8 (LEA(Q|L)8 <v.Type> x x) (LEA(Q|L)8 <v.Type> x x)) |
| |
| (MUL(Q|L)const [c] x) && isPowerOfTwo(c+1) && c >= 15 -> (SUB(Q|L) (SHL(Q|L)const <v.Type> [log2(c+1)] x) x) |
| (MUL(Q|L)const [c] x) && isPowerOfTwo(c-1) && c >= 17 -> (LEA(Q|L)1 (SHL(Q|L)const <v.Type> [log2(c-1)] x) x) |
| (MUL(Q|L)const [c] x) && isPowerOfTwo(c-2) && c >= 34 -> (LEA(Q|L)2 (SHL(Q|L)const <v.Type> [log2(c-2)] x) x) |
| (MUL(Q|L)const [c] x) && isPowerOfTwo(c-4) && c >= 68 -> (LEA(Q|L)4 (SHL(Q|L)const <v.Type> [log2(c-4)] x) x) |
| (MUL(Q|L)const [c] x) && isPowerOfTwo(c-8) && c >= 136 -> (LEA(Q|L)8 (SHL(Q|L)const <v.Type> [log2(c-8)] x) x) |
| (MUL(Q|L)const [c] x) && c%3 == 0 && isPowerOfTwo(c/3) -> (SHL(Q|L)const [log2(c/3)] (LEA(Q|L)2 <v.Type> x x)) |
| (MUL(Q|L)const [c] x) && c%5 == 0 && isPowerOfTwo(c/5) -> (SHL(Q|L)const [log2(c/5)] (LEA(Q|L)4 <v.Type> x x)) |
| (MUL(Q|L)const [c] x) && c%9 == 0 && isPowerOfTwo(c/9) -> (SHL(Q|L)const [log2(c/9)] (LEA(Q|L)8 <v.Type> x x)) |
| |
| // combine add/shift into LEAQ/LEAL |
| (ADD(L|Q) x (SHL(L|Q)const [3] y)) -> (LEA(L|Q)8 x y) |
| (ADD(L|Q) x (SHL(L|Q)const [2] y)) -> (LEA(L|Q)4 x y) |
| (ADD(L|Q) x (SHL(L|Q)const [1] y)) -> (LEA(L|Q)2 x y) |
| (ADD(L|Q) x (ADD(L|Q) y y)) -> (LEA(L|Q)2 x y) |
| (ADD(L|Q) x (ADD(L|Q) x y)) -> (LEA(L|Q)2 y x) |
| |
| // combine ADDQ/ADDQconst into LEAQ1/LEAL1 |
| (ADD(Q|L)const [c] (ADD(Q|L) x y)) -> (LEA(Q|L)1 [c] x y) |
| (ADD(Q|L) (ADD(Q|L)const [c] x) y) -> (LEA(Q|L)1 [c] x y) |
| (ADD(Q|L)const [c] (SHL(Q|L)const [1] x)) -> (LEA(Q|L)1 [c] x x) |
| |
| // fold ADDQ/ADDL into LEAQ/LEAL |
| (ADD(Q|L)const [c] (LEA(Q|L) [d] {s} x)) && is32Bit(c+d) -> (LEA(Q|L) [c+d] {s} x) |
| (LEA(Q|L) [c] {s} (ADD(Q|L)const [d] x)) && is32Bit(c+d) -> (LEA(Q|L) [c+d] {s} x) |
| (LEA(Q|L) [c] {s} (ADD(Q|L) x y)) && x.Op != OpSB && y.Op != OpSB -> (LEA(Q|L)1 [c] {s} x y) |
| (ADD(Q|L) x (LEA(Q|L) [c] {s} y)) && x.Op != OpSB && y.Op != OpSB -> (LEA(Q|L)1 [c] {s} x y) |
| |
| // fold ADDQconst/ADDLconst into LEAQx/LEALx |
| (ADD(Q|L)const [c] (LEA(Q|L)1 [d] {s} x y)) && is32Bit(c+d) -> (LEA(Q|L)1 [c+d] {s} x y) |
| (ADD(Q|L)const [c] (LEA(Q|L)2 [d] {s} x y)) && is32Bit(c+d) -> (LEA(Q|L)2 [c+d] {s} x y) |
| (ADD(Q|L)const [c] (LEA(Q|L)4 [d] {s} x y)) && is32Bit(c+d) -> (LEA(Q|L)4 [c+d] {s} x y) |
| (ADD(Q|L)const [c] (LEA(Q|L)8 [d] {s} x y)) && is32Bit(c+d) -> (LEA(Q|L)8 [c+d] {s} x y) |
| (LEA(Q|L)1 [c] {s} (ADD(Q|L)const [d] x) y) && is32Bit(c+d) && x.Op != OpSB -> (LEA(Q|L)1 [c+d] {s} x y) |
| (LEA(Q|L)2 [c] {s} (ADD(Q|L)const [d] x) y) && is32Bit(c+d) && x.Op != OpSB -> (LEA(Q|L)2 [c+d] {s} x y) |
| (LEA(Q|L)2 [c] {s} x (ADD(Q|L)const [d] y)) && is32Bit(c+2*d) && y.Op != OpSB -> (LEA(Q|L)2 [c+2*d] {s} x y) |
| (LEA(Q|L)4 [c] {s} (ADD(Q|L)const [d] x) y) && is32Bit(c+d) && x.Op != OpSB -> (LEA(Q|L)4 [c+d] {s} x y) |
| (LEA(Q|L)4 [c] {s} x (ADD(Q|L)const [d] y)) && is32Bit(c+4*d) && y.Op != OpSB -> (LEA(Q|L)4 [c+4*d] {s} x y) |
| (LEA(Q|L)8 [c] {s} (ADD(Q|L)const [d] x) y) && is32Bit(c+d) && x.Op != OpSB -> (LEA(Q|L)8 [c+d] {s} x y) |
| (LEA(Q|L)8 [c] {s} x (ADD(Q|L)const [d] y)) && is32Bit(c+8*d) && y.Op != OpSB -> (LEA(Q|L)8 [c+8*d] {s} x y) |
| |
| // fold shifts into LEAQx/LEALx |
| (LEA(Q|L)1 [c] {s} x (SHL(Q|L)const [1] y)) -> (LEA(Q|L)2 [c] {s} x y) |
| (LEA(Q|L)1 [c] {s} x (SHL(Q|L)const [2] y)) -> (LEA(Q|L)4 [c] {s} x y) |
| (LEA(Q|L)1 [c] {s} x (SHL(Q|L)const [3] y)) -> (LEA(Q|L)8 [c] {s} x y) |
| (LEA(Q|L)2 [c] {s} x (SHL(Q|L)const [1] y)) -> (LEA(Q|L)4 [c] {s} x y) |
| (LEA(Q|L)2 [c] {s} x (SHL(Q|L)const [2] y)) -> (LEA(Q|L)8 [c] {s} x y) |
| (LEA(Q|L)4 [c] {s} x (SHL(Q|L)const [1] y)) -> (LEA(Q|L)8 [c] {s} x y) |
| |
| // reverse ordering of compare instruction |
| (SETL (InvertFlags x)) -> (SETG x) |
| (SETG (InvertFlags x)) -> (SETL x) |
| (SETB (InvertFlags x)) -> (SETA x) |
| (SETA (InvertFlags x)) -> (SETB x) |
| (SETLE (InvertFlags x)) -> (SETGE x) |
| (SETGE (InvertFlags x)) -> (SETLE x) |
| (SETBE (InvertFlags x)) -> (SETAE x) |
| (SETAE (InvertFlags x)) -> (SETBE x) |
| (SETEQ (InvertFlags x)) -> (SETEQ x) |
| (SETNE (InvertFlags x)) -> (SETNE x) |
| |
| (SETLstore [off] {sym} ptr (InvertFlags x) mem) -> (SETGstore [off] {sym} ptr x mem) |
| (SETGstore [off] {sym} ptr (InvertFlags x) mem) -> (SETLstore [off] {sym} ptr x mem) |
| (SETBstore [off] {sym} ptr (InvertFlags x) mem) -> (SETAstore [off] {sym} ptr x mem) |
| (SETAstore [off] {sym} ptr (InvertFlags x) mem) -> (SETBstore [off] {sym} ptr x mem) |
| (SETLEstore [off] {sym} ptr (InvertFlags x) mem) -> (SETGEstore [off] {sym} ptr x mem) |
| (SETGEstore [off] {sym} ptr (InvertFlags x) mem) -> (SETLEstore [off] {sym} ptr x mem) |
| (SETBEstore [off] {sym} ptr (InvertFlags x) mem) -> (SETAEstore [off] {sym} ptr x mem) |
| (SETAEstore [off] {sym} ptr (InvertFlags x) mem) -> (SETBEstore [off] {sym} ptr x mem) |
| (SETEQstore [off] {sym} ptr (InvertFlags x) mem) -> (SETEQstore [off] {sym} ptr x mem) |
| (SETNEstore [off] {sym} ptr (InvertFlags x) mem) -> (SETNEstore [off] {sym} ptr x mem) |
| |
| // 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. |
| (MOVBQSX x:(MOVBload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVBQSXload <v.Type> [off] {sym} ptr mem) |
| (MOVBQSX x:(MOVWload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVBQSXload <v.Type> [off] {sym} ptr mem) |
| (MOVBQSX x:(MOVLload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVBQSXload <v.Type> [off] {sym} ptr mem) |
| (MOVBQSX x:(MOVQload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVBQSXload <v.Type> [off] {sym} ptr mem) |
| (MOVBQZX x:(MOVBload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVBload <v.Type> [off] {sym} ptr mem) |
| (MOVBQZX x:(MOVWload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVBload <v.Type> [off] {sym} ptr mem) |
| (MOVBQZX x:(MOVLload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVBload <v.Type> [off] {sym} ptr mem) |
| (MOVBQZX x:(MOVQload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVBload <v.Type> [off] {sym} ptr mem) |
| (MOVWQSX x:(MOVWload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVWQSXload <v.Type> [off] {sym} ptr mem) |
| (MOVWQSX x:(MOVLload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVWQSXload <v.Type> [off] {sym} ptr mem) |
| (MOVWQSX x:(MOVQload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVWQSXload <v.Type> [off] {sym} ptr mem) |
| (MOVWQZX x:(MOVWload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVWload <v.Type> [off] {sym} ptr mem) |
| (MOVWQZX x:(MOVLload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVWload <v.Type> [off] {sym} ptr mem) |
| (MOVWQZX x:(MOVQload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVWload <v.Type> [off] {sym} ptr mem) |
| (MOVLQSX x:(MOVLload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVLQSXload <v.Type> [off] {sym} ptr mem) |
| (MOVLQSX x:(MOVQload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVLQSXload <v.Type> [off] {sym} ptr mem) |
| (MOVLQZX x:(MOVLload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVLload <v.Type> [off] {sym} ptr mem) |
| (MOVLQZX x:(MOVQload [off] {sym} ptr mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVLload <v.Type> [off] {sym} ptr mem) |
| |
| (MOVLQZX x) && zeroUpper32Bits(x,3) -> x |
| (MOVWQZX x) && zeroUpper48Bits(x,3) -> x |
| (MOVBQZX x) && zeroUpper56Bits(x,3) -> x |
| |
| (MOVBQZX x:(MOVBloadidx1 [off] {sym} ptr idx mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVBloadidx1 <v.Type> [off] {sym} ptr idx mem) |
| (MOVWQZX x:(MOVWloadidx1 [off] {sym} ptr idx mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVWloadidx1 <v.Type> [off] {sym} ptr idx mem) |
| (MOVWQZX x:(MOVWloadidx2 [off] {sym} ptr idx mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVWloadidx2 <v.Type> [off] {sym} ptr idx mem) |
| (MOVLQZX x:(MOVLloadidx1 [off] {sym} ptr idx mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVLloadidx1 <v.Type> [off] {sym} ptr idx mem) |
| (MOVLQZX x:(MOVLloadidx4 [off] {sym} ptr idx mem)) && x.Uses == 1 && clobber(x) -> @x.Block (MOVLloadidx4 <v.Type> [off] {sym} ptr idx 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) -> (MOVBQZX x) |
| (MOVWload [off] {sym} ptr (MOVWstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVWQZX x) |
| (MOVLload [off] {sym} ptr (MOVLstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVLQZX x) |
| (MOVQload [off] {sym} ptr (MOVQstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> x |
| (MOVBQSXload [off] {sym} ptr (MOVBstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVBQSX x) |
| (MOVWQSXload [off] {sym} ptr (MOVWstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVWQSX x) |
| (MOVLQSXload [off] {sym} ptr (MOVLstore [off2] {sym2} ptr2 x _)) && sym == sym2 && off == off2 && isSamePtr(ptr, ptr2) -> (MOVLQSX x) |
| |
| // Fold extensions and ANDs together. |
| (MOVBQZX (ANDLconst [c] x)) -> (ANDLconst [c & 0xff] x) |
| (MOVWQZX (ANDLconst [c] x)) -> (ANDLconst [c & 0xffff] x) |
| (MOVLQZX (ANDLconst [c] x)) -> (ANDLconst [c] x) |
| (MOVBQSX (ANDLconst [c] x)) && c & 0x80 == 0 -> (ANDLconst [c & 0x7f] x) |
| (MOVWQSX (ANDLconst [c] x)) && c & 0x8000 == 0 -> (ANDLconst [c & 0x7fff] x) |
| (MOVLQSX (ANDLconst [c] x)) && c & 0x80000000 == 0 -> (ANDLconst [c & 0x7fffffff] x) |
| |
| // Don't extend before storing |
| (MOVLstore [off] {sym} ptr (MOVLQSX x) mem) -> (MOVLstore [off] {sym} ptr x mem) |
| (MOVWstore [off] {sym} ptr (MOVWQSX x) mem) -> (MOVWstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr (MOVBQSX x) mem) -> (MOVBstore [off] {sym} ptr x mem) |
| (MOVLstore [off] {sym} ptr (MOVLQZX x) mem) -> (MOVLstore [off] {sym} ptr x mem) |
| (MOVWstore [off] {sym} ptr (MOVWQZX x) mem) -> (MOVWstore [off] {sym} ptr x mem) |
| (MOVBstore [off] {sym} ptr (MOVBQZX x) mem) -> (MOVBstore [off] {sym} ptr x mem) |
| |
| // fold constants into memory operations |
| // Note that this is not always a good idea because if not all the uses of |
| // the ADDQconst get eliminated, we still have to compute the ADDQconst and we now |
| // have potentially two live values (ptr and (ADDQconst [off] ptr)) instead of one. |
| // Nevertheless, let's do it! |
| (MOV(Q|L|W|B|SS|SD|O)load [off1] {sym} (ADDQconst [off2] ptr) mem) && is32Bit(off1+off2) -> |
| (MOV(Q|L|W|B|SS|SD|O)load [off1+off2] {sym} ptr mem) |
| (MOV(Q|L|W|B|SS|SD|O)store [off1] {sym} (ADDQconst [off2] ptr) val mem) && is32Bit(off1+off2) -> |
| (MOV(Q|L|W|B|SS|SD|O)store [off1+off2] {sym} ptr val mem) |
| (SET(L|G|B|A|LE|GE|BE|AE|EQ|NE)store [off1] {sym} (ADDQconst [off2] base) val mem) && is32Bit(off1+off2) -> |
| (SET(L|G|B|A|LE|GE|BE|AE|EQ|NE)store [off1+off2] {sym} base val mem) |
| ((ADD|SUB|AND|OR|XOR)Qload [off1] {sym} val (ADDQconst [off2] base) mem) && is32Bit(off1+off2) -> |
| ((ADD|SUB|AND|OR|XOR)Qload [off1+off2] {sym} val base mem) |
| ((ADD|SUB|AND|OR|XOR)Lload [off1] {sym} val (ADDQconst [off2] base) mem) && is32Bit(off1+off2) -> |
| ((ADD|SUB|AND|OR|XOR)Lload [off1+off2] {sym} val base mem) |
| (CMP(Q|L|W|B)load [off1] {sym} (ADDQconst [off2] base) val mem) && is32Bit(off1+off2) -> |
| (CMP(Q|L|W|B)load [off1+off2] {sym} base val mem) |
| (CMP(Q|L|W|B)constload [valoff1] {sym} (ADDQconst [off2] base) mem) && ValAndOff(valoff1).canAdd(off2) -> |
| (CMP(Q|L|W|B)constload [ValAndOff(valoff1).add(off2)] {sym} base mem) |
| |
| ((ADD|SUB|MUL|DIV)SSload [off1] {sym} val (ADDQconst [off2] base) mem) && is32Bit(off1+off2) -> |
| ((ADD|SUB|MUL|DIV)SSload [off1+off2] {sym} val base mem) |
| ((ADD|SUB|MUL|DIV)SDload [off1] {sym} val (ADDQconst [off2] base) mem) && is32Bit(off1+off2) -> |
| ((ADD|SUB|MUL|DIV)SDload [off1+off2] {sym} val base mem) |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Qconstmodify [valoff1] {sym} (ADDQconst [off2] base) mem) && ValAndOff(valoff1).canAdd(off2) -> |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Qconstmodify [ValAndOff(valoff1).add(off2)] {sym} base mem) |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Lconstmodify [valoff1] {sym} (ADDQconst [off2] base) mem) && ValAndOff(valoff1).canAdd(off2) -> |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Lconstmodify [ValAndOff(valoff1).add(off2)] {sym} base mem) |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Qmodify [off1] {sym} (ADDQconst [off2] base) val mem) && is32Bit(off1+off2) -> |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Qmodify [off1+off2] {sym} base val mem) |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Lmodify [off1] {sym} (ADDQconst [off2] base) val mem) && is32Bit(off1+off2) -> |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Lmodify [off1+off2] {sym} base val mem) |
| |
| // Fold constants into stores. |
| (MOVQstore [off] {sym} ptr (MOVQconst [c]) mem) && validValAndOff(c,off) -> |
| (MOVQstoreconst [makeValAndOff(c,off)] {sym} ptr mem) |
| (MOVLstore [off] {sym} ptr (MOV(L|Q)const [c]) mem) && validOff(off) -> |
| (MOVLstoreconst [makeValAndOff(int64(int32(c)),off)] {sym} ptr mem) |
| (MOVWstore [off] {sym} ptr (MOV(L|Q)const [c]) mem) && validOff(off) -> |
| (MOVWstoreconst [makeValAndOff(int64(int16(c)),off)] {sym} ptr mem) |
| (MOVBstore [off] {sym} ptr (MOV(L|Q)const [c]) mem) && validOff(off) -> |
| (MOVBstoreconst [makeValAndOff(int64(int8(c)),off)] {sym} ptr mem) |
| |
| // Fold address offsets into constant stores. |
| (MOV(Q|L|W|B)storeconst [sc] {s} (ADDQconst [off] ptr) mem) && ValAndOff(sc).canAdd(off) -> |
| (MOV(Q|L|W|B)storeconst [ValAndOff(sc).add(off)] {s} ptr mem) |
| |
| // We need to fold LEAQ into the MOVx ops so that the live variable analysis knows |
| // what variables are being read/written by the ops. |
| (MOV(Q|L|W|B|SS|SD|O|BQSX|WQSX|LQSX)load [off1] {sym1} (LEAQ [off2] {sym2} base) mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOV(Q|L|W|B|SS|SD|O|BQSX|WQSX|LQSX)load [off1+off2] {mergeSym(sym1,sym2)} base mem) |
| (MOV(Q|L|W|B|SS|SD|O)store [off1] {sym1} (LEAQ [off2] {sym2} base) val mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOV(Q|L|W|B|SS|SD|O)store [off1+off2] {mergeSym(sym1,sym2)} base val mem) |
| (MOV(Q|L|W|B)storeconst [sc] {sym1} (LEAQ [off] {sym2} ptr) mem) && canMergeSym(sym1, sym2) && ValAndOff(sc).canAdd(off) -> |
| (MOV(Q|L|W|B)storeconst [ValAndOff(sc).add(off)] {mergeSym(sym1, sym2)} ptr mem) |
| (SET(L|G|B|A|LE|GE|BE|AE|EQ|NE)store [off1] {sym1} (LEAQ [off2] {sym2} base) val mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (SET(L|G|B|A|LE|GE|BE|AE|EQ|NE)store [off1+off2] {mergeSym(sym1,sym2)} base val mem) |
| ((ADD|SUB|AND|OR|XOR)Qload [off1] {sym1} val (LEAQ [off2] {sym2} base) mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| ((ADD|SUB|AND|OR|XOR)Qload [off1+off2] {mergeSym(sym1,sym2)} val base mem) |
| ((ADD|SUB|AND|OR|XOR)Lload [off1] {sym1} val (LEAQ [off2] {sym2} base) mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| ((ADD|SUB|AND|OR|XOR)Lload [off1+off2] {mergeSym(sym1,sym2)} val base mem) |
| (CMP(Q|L|W|B)load [off1] {sym1} (LEAQ [off2] {sym2} base) val mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (CMP(Q|L|W|B)load [off1+off2] {mergeSym(sym1,sym2)} base val mem) |
| (CMP(Q|L|W|B)constload [valoff1] {sym1} (LEAQ [off2] {sym2} base) mem) |
| && ValAndOff(valoff1).canAdd(off2) && canMergeSym(sym1, sym2) -> |
| (CMP(Q|L|W|B)constload [ValAndOff(valoff1).add(off2)] {mergeSym(sym1,sym2)} base mem) |
| |
| ((ADD|SUB|MUL|DIV)SSload [off1] {sym1} val (LEAQ [off2] {sym2} base) mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| ((ADD|SUB|MUL|DIV)SSload [off1+off2] {mergeSym(sym1,sym2)} val base mem) |
| ((ADD|SUB|MUL|DIV)SDload [off1] {sym1} val (LEAQ [off2] {sym2} base) mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| ((ADD|SUB|MUL|DIV)SDload [off1+off2] {mergeSym(sym1,sym2)} val base mem) |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Qconstmodify [valoff1] {sym1} (LEAQ [off2] {sym2} base) mem) |
| && ValAndOff(valoff1).canAdd(off2) && canMergeSym(sym1, sym2) -> |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Qconstmodify [ValAndOff(valoff1).add(off2)] {mergeSym(sym1,sym2)} base mem) |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Lconstmodify [valoff1] {sym1} (LEAQ [off2] {sym2} base) mem) |
| && ValAndOff(valoff1).canAdd(off2) && canMergeSym(sym1, sym2) -> |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Lconstmodify [ValAndOff(valoff1).add(off2)] {mergeSym(sym1,sym2)} base mem) |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Qmodify [off1] {sym1} (LEAQ [off2] {sym2} base) val mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Qmodify [off1+off2] {mergeSym(sym1,sym2)} base val mem) |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Lmodify [off1] {sym1} (LEAQ [off2] {sym2} base) val mem) |
| && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Lmodify [off1+off2] {mergeSym(sym1,sym2)} base val mem) |
| |
| // generating indexed loads and stores |
| (MOV(B|W|L|Q|SS|SD)load [off1] {sym1} (LEAQ1 [off2] {sym2} ptr idx) mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOV(B|W|L|Q|SS|SD)loadidx1 [off1+off2] {mergeSym(sym1,sym2)} ptr idx mem) |
| (MOVWload [off1] {sym1} (LEAQ2 [off2] {sym2} ptr idx) mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOVWloadidx2 [off1+off2] {mergeSym(sym1,sym2)} ptr idx mem) |
| (MOV(L|SS)load [off1] {sym1} (LEAQ4 [off2] {sym2} ptr idx) mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOV(L|SS)loadidx4 [off1+off2] {mergeSym(sym1,sym2)} ptr idx mem) |
| (MOV(L|Q|SD)load [off1] {sym1} (LEAQ8 [off2] {sym2} ptr idx) mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOV(L|Q|SD)loadidx8 [off1+off2] {mergeSym(sym1,sym2)} ptr idx mem) |
| |
| (MOV(B|W|L|Q|SS|SD)store [off1] {sym1} (LEAQ1 [off2] {sym2} ptr idx) val mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOV(B|W|L|Q|SS|SD)storeidx1 [off1+off2] {mergeSym(sym1,sym2)} ptr idx val mem) |
| (MOVWstore [off1] {sym1} (LEAQ2 [off2] {sym2} ptr idx) val mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOVWstoreidx2 [off1+off2] {mergeSym(sym1,sym2)} ptr idx val mem) |
| (MOV(L|SS)store [off1] {sym1} (LEAQ4 [off2] {sym2} ptr idx) val mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOV(L|SS)storeidx4 [off1+off2] {mergeSym(sym1,sym2)} ptr idx val mem) |
| (MOV(L|Q|SD)store [off1] {sym1} (LEAQ8 [off2] {sym2} ptr idx) val mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOV(L|Q|SD)storeidx8 [off1+off2] {mergeSym(sym1,sym2)} ptr idx val mem) |
| |
| (MOV(B|W|L|Q|SS|SD)load [off] {sym} (ADDQ ptr idx) mem) && ptr.Op != OpSB -> |
| (MOV(B|W|L|Q|SS|SD)loadidx1 [off] {sym} ptr idx mem) |
| (MOV(B|W|L|Q|SS|SD)store [off] {sym} (ADDQ ptr idx) val mem) && ptr.Op != OpSB -> |
| (MOV(B|W|L|Q|SS|SD)storeidx1 [off] {sym} ptr idx val mem) |
| |
| (MOV(B|W|L|Q)storeconst [x] {sym1} (LEAQ1 [off] {sym2} ptr idx) mem) && canMergeSym(sym1, sym2) -> |
| (MOV(B|W|L|Q)storeconstidx1 [ValAndOff(x).add(off)] {mergeSym(sym1,sym2)} ptr idx mem) |
| (MOVWstoreconst [x] {sym1} (LEAQ2 [off] {sym2} ptr idx) mem) && canMergeSym(sym1, sym2) -> |
| (MOVWstoreconstidx2 [ValAndOff(x).add(off)] {mergeSym(sym1,sym2)} ptr idx mem) |
| (MOVLstoreconst [x] {sym1} (LEAQ4 [off] {sym2} ptr idx) mem) && canMergeSym(sym1, sym2) -> |
| (MOVLstoreconstidx4 [ValAndOff(x).add(off)] {mergeSym(sym1,sym2)} ptr idx mem) |
| (MOVQstoreconst [x] {sym1} (LEAQ8 [off] {sym2} ptr idx) mem) && canMergeSym(sym1, sym2) -> |
| (MOVQstoreconstidx8 [ValAndOff(x).add(off)] {mergeSym(sym1,sym2)} ptr idx mem) |
| |
| (MOV(B|W|L|Q)storeconst [x] {sym} (ADDQ ptr idx) mem) -> (MOV(B|W|L|Q)storeconstidx1 [x] {sym} ptr idx mem) |
| |
| // combine SHLQ into indexed loads and stores |
| (MOVWloadidx1 [c] {sym} ptr (SHLQconst [1] idx) mem) -> (MOVWloadidx2 [c] {sym} ptr idx mem) |
| (MOV(L|SS)loadidx1 [c] {sym} ptr (SHLQconst [2] idx) mem) -> (MOV(L|SS)loadidx4 [c] {sym} ptr idx mem) |
| (MOV(L|Q|SD)loadidx1 [c] {sym} ptr (SHLQconst [3] idx) mem) -> (MOV(L|Q|SD)loadidx8 [c] {sym} ptr idx mem) |
| |
| (MOVWstoreidx1 [c] {sym} ptr (SHLQconst [1] idx) val mem) -> (MOVWstoreidx2 [c] {sym} ptr idx val mem) |
| (MOV(L|SS)storeidx1 [c] {sym} ptr (SHLQconst [2] idx) val mem) -> (MOV(L|SS)storeidx4 [c] {sym} ptr idx val mem) |
| (MOV(L|Q|SD)storeidx1 [c] {sym} ptr (SHLQconst [3] idx) val mem) -> (MOV(L|Q|SD)storeidx8 [c] {sym} ptr idx val mem) |
| (MOVWstoreconstidx1 [c] {sym} ptr (SHLQconst [1] idx) mem) -> (MOVWstoreconstidx2 [c] {sym} ptr idx mem) |
| (MOVLstoreconstidx1 [c] {sym} ptr (SHLQconst [2] idx) mem) -> (MOVLstoreconstidx4 [c] {sym} ptr idx mem) |
| (MOVQstoreconstidx1 [c] {sym} ptr (SHLQconst [3] idx) mem) -> (MOVQstoreconstidx8 [c] {sym} ptr idx mem) |
| |
| // combine ADDQ into pointer of indexed loads and stores |
| (MOV(B|W|L|Q|SS|SD)loadidx1 [c] {sym} (ADDQconst [d] ptr) idx mem) && is32Bit(c+d) -> (MOV(B|W|L|Q|SS|SD)loadidx1 [c+d] {sym} ptr idx mem) |
| (MOVWloadidx2 [c] {sym} (ADDQconst [d] ptr) idx mem) && is32Bit(c+d) -> (MOVWloadidx2 [c+d] {sym} ptr idx mem) |
| (MOV(L|SS)loadidx4 [c] {sym} (ADDQconst [d] ptr) idx mem) && is32Bit(c+d) -> (MOV(L|SS)loadidx4 [c+d] {sym} ptr idx mem) |
| (MOV(L|Q|SD)loadidx8 [c] {sym} (ADDQconst [d] ptr) idx mem) && is32Bit(c+d) -> (MOV(L|Q|SD)loadidx8 [c+d] {sym} ptr idx mem) |
| |
| (MOV(B|W|L|Q|SS|SD)storeidx1 [c] {sym} (ADDQconst [d] ptr) idx val mem) && is32Bit(c+d) -> (MOV(B|W|L|Q|SS|SD)storeidx1 [c+d] {sym} ptr idx val mem) |
| (MOVWstoreidx2 [c] {sym} (ADDQconst [d] ptr) idx val mem) && is32Bit(c+d) -> (MOVWstoreidx2 [c+d] {sym} ptr idx val mem) |
| (MOV(L|SS)storeidx4 [c] {sym} (ADDQconst [d] ptr) idx val mem) && is32Bit(c+d) -> (MOV(L|SS)storeidx4 [c+d] {sym} ptr idx val mem) |
| (MOV(L|Q|SD)storeidx8 [c] {sym} (ADDQconst [d] ptr) idx val mem) && is32Bit(c+d) -> (MOV(L|Q|SD)storeidx8 [c+d] {sym} ptr idx val mem) |
| |
| |
| // combine ADDQ into index of indexed loads and stores |
| (MOV(B|W|L|Q|SS|SD)loadidx1 [c] {sym} ptr (ADDQconst [d] idx) mem) && is32Bit(c+d) -> (MOV(B|W|L|Q|SS|SD)loadidx1 [c+d] {sym} ptr idx mem) |
| (MOVWloadidx2 [c] {sym} ptr (ADDQconst [d] idx) mem) && is32Bit(c+2*d) -> (MOVWloadidx2 [c+2*d] {sym} ptr idx mem) |
| (MOV(L|SS)loadidx4 [c] {sym} ptr (ADDQconst [d] idx) mem) && is32Bit(c+4*d) -> (MOV(L|SS)loadidx4 [c+4*d] {sym} ptr idx mem) |
| (MOV(L|Q|SD)loadidx8 [c] {sym} ptr (ADDQconst [d] idx) mem) && is32Bit(c+8*d) -> (MOV(L|Q|SD)loadidx8 [c+8*d] {sym} ptr idx mem) |
| |
| (MOV(B|W|L|Q|SS|SD)storeidx1 [c] {sym} ptr (ADDQconst [d] idx) val mem) && is32Bit(c+d) -> (MOV(B|W|L|Q|SS|SD)storeidx1 [c+d] {sym} ptr idx val mem) |
| (MOVWstoreidx2 [c] {sym} ptr (ADDQconst [d] idx) val mem) && is32Bit(c+2*d) -> (MOVWstoreidx2 [c+2*d] {sym} ptr idx val mem) |
| (MOV(L|SS)storeidx4 [c] {sym} ptr (ADDQconst [d] idx) val mem) && is32Bit(c+4*d) -> (MOV(L|SS)storeidx4 [c+4*d] {sym} ptr idx val mem) |
| (MOV(L|Q|SD)storeidx8 [c] {sym} ptr (ADDQconst [d] idx) val mem) && is32Bit(c+8*d) -> (MOV(L|Q|SD)storeidx8 [c+8*d] {sym} ptr idx val mem) |
| |
| (MOV(B|W|L|Q)storeconstidx1 [x] {sym} (ADDQconst [c] ptr) idx mem) && ValAndOff(x).canAdd(c) -> (MOV(B|W|L|Q)storeconstidx1 [ValAndOff(x).add(c)] {sym} ptr idx mem) |
| (MOVWstoreconstidx2 [x] {sym} (ADDQconst [c] ptr) idx mem) && ValAndOff(x).canAdd(c) -> (MOVWstoreconstidx2 [ValAndOff(x).add(c)] {sym} ptr idx mem) |
| (MOVLstoreconstidx4 [x] {sym} (ADDQconst [c] ptr) idx mem) && ValAndOff(x).canAdd(c) -> (MOVLstoreconstidx4 [ValAndOff(x).add(c)] {sym} ptr idx mem) |
| (MOVQstoreconstidx8 [x] {sym} (ADDQconst [c] ptr) idx mem) && ValAndOff(x).canAdd(c) -> (MOVQstoreconstidx8 [ValAndOff(x).add(c)] {sym} ptr idx mem) |
| |
| (MOV(B|W|L|Q)storeconstidx1 [x] {sym} ptr (ADDQconst [c] idx) mem) && ValAndOff(x).canAdd(c) -> (MOV(B|W|L|Q)storeconstidx1 [ValAndOff(x).add(c)] {sym} ptr idx mem) |
| (MOVWstoreconstidx2 [x] {sym} ptr (ADDQconst [c] idx) mem) && ValAndOff(x).canAdd(2*c) -> (MOVWstoreconstidx2 [ValAndOff(x).add(2*c)] {sym} ptr idx mem) |
| (MOVLstoreconstidx4 [x] {sym} ptr (ADDQconst [c] idx) mem) && ValAndOff(x).canAdd(4*c) -> (MOVLstoreconstidx4 [ValAndOff(x).add(4*c)] {sym} ptr idx mem) |
| (MOVQstoreconstidx8 [x] {sym} ptr (ADDQconst [c] idx) mem) && ValAndOff(x).canAdd(8*c) -> (MOVQstoreconstidx8 [ValAndOff(x).add(8*c)] {sym} ptr idx mem) |
| |
| // fold LEAQs together |
| (LEAQ [off1] {sym1} (LEAQ [off2] {sym2} x)) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (LEAQ [off1+off2] {mergeSym(sym1,sym2)} x) |
| |
| // LEAQ into LEAQ1 |
| (LEAQ1 [off1] {sym1} (LEAQ [off2] {sym2} x) y) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) && x.Op != OpSB -> |
| (LEAQ1 [off1+off2] {mergeSym(sym1,sym2)} x y) |
| |
| // LEAQ1 into LEAQ |
| (LEAQ [off1] {sym1} (LEAQ1 [off2] {sym2} x y)) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (LEAQ1 [off1+off2] {mergeSym(sym1,sym2)} x y) |
| |
| // LEAQ into LEAQ[248] |
| (LEAQ2 [off1] {sym1} (LEAQ [off2] {sym2} x) y) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) && x.Op != OpSB -> |
| (LEAQ2 [off1+off2] {mergeSym(sym1,sym2)} x y) |
| (LEAQ4 [off1] {sym1} (LEAQ [off2] {sym2} x) y) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) && x.Op != OpSB -> |
| (LEAQ4 [off1+off2] {mergeSym(sym1,sym2)} x y) |
| (LEAQ8 [off1] {sym1} (LEAQ [off2] {sym2} x) y) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) && x.Op != OpSB -> |
| (LEAQ8 [off1+off2] {mergeSym(sym1,sym2)} x y) |
| |
| // LEAQ[248] into LEAQ |
| (LEAQ [off1] {sym1} (LEAQ2 [off2] {sym2} x y)) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (LEAQ2 [off1+off2] {mergeSym(sym1,sym2)} x y) |
| (LEAQ [off1] {sym1} (LEAQ4 [off2] {sym2} x y)) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (LEAQ4 [off1+off2] {mergeSym(sym1,sym2)} x y) |
| (LEAQ [off1] {sym1} (LEAQ8 [off2] {sym2} x y)) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (LEAQ8 [off1+off2] {mergeSym(sym1,sym2)} x y) |
| |
| // 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) |
| |
| // Constant comparisons. |
| (CMPQconst (MOVQconst [x]) [y]) && x==y -> (FlagEQ) |
| (CMPQconst (MOVQconst [x]) [y]) && x<y && uint64(x)<uint64(y) -> (FlagLT_ULT) |
| (CMPQconst (MOVQconst [x]) [y]) && x<y && uint64(x)>uint64(y) -> (FlagLT_UGT) |
| (CMPQconst (MOVQconst [x]) [y]) && x>y && uint64(x)<uint64(y) -> (FlagGT_ULT) |
| (CMPQconst (MOVQconst [x]) [y]) && x>y && uint64(x)>uint64(y) -> (FlagGT_UGT) |
| (CMPLconst (MOVLconst [x]) [y]) && int32(x)==int32(y) -> (FlagEQ) |
| (CMPLconst (MOVLconst [x]) [y]) && int32(x)<int32(y) && uint32(x)<uint32(y) -> (FlagLT_ULT) |
| (CMPLconst (MOVLconst [x]) [y]) && int32(x)<int32(y) && uint32(x)>uint32(y) -> (FlagLT_UGT) |
| (CMPLconst (MOVLconst [x]) [y]) && int32(x)>int32(y) && uint32(x)<uint32(y) -> (FlagGT_ULT) |
| (CMPLconst (MOVLconst [x]) [y]) && int32(x)>int32(y) && uint32(x)>uint32(y) -> (FlagGT_UGT) |
| (CMPWconst (MOVLconst [x]) [y]) && int16(x)==int16(y) -> (FlagEQ) |
| (CMPWconst (MOVLconst [x]) [y]) && int16(x)<int16(y) && uint16(x)<uint16(y) -> (FlagLT_ULT) |
| (CMPWconst (MOVLconst [x]) [y]) && int16(x)<int16(y) && uint16(x)>uint16(y) -> (FlagLT_UGT) |
| (CMPWconst (MOVLconst [x]) [y]) && int16(x)>int16(y) && uint16(x)<uint16(y) -> (FlagGT_ULT) |
| (CMPWconst (MOVLconst [x]) [y]) && int16(x)>int16(y) && uint16(x)>uint16(y) -> (FlagGT_UGT) |
| (CMPBconst (MOVLconst [x]) [y]) && int8(x)==int8(y) -> (FlagEQ) |
| (CMPBconst (MOVLconst [x]) [y]) && int8(x)<int8(y) && uint8(x)<uint8(y) -> (FlagLT_ULT) |
| (CMPBconst (MOVLconst [x]) [y]) && int8(x)<int8(y) && uint8(x)>uint8(y) -> (FlagLT_UGT) |
| (CMPBconst (MOVLconst [x]) [y]) && int8(x)>int8(y) && uint8(x)<uint8(y) -> (FlagGT_ULT) |
| (CMPBconst (MOVLconst [x]) [y]) && int8(x)>int8(y) && uint8(x)>uint8(y) -> (FlagGT_UGT) |
| |
| // Other known comparisons. |
| (CMPQconst (MOVBQZX _) [c]) && 0xFF < c -> (FlagLT_ULT) |
| (CMPQconst (MOVWQZX _) [c]) && 0xFFFF < c -> (FlagLT_ULT) |
| (CMPQconst (MOVLQZX _) [c]) && 0xFFFFFFFF < c -> (FlagLT_ULT) |
| (CMPLconst (SHRLconst _ [c]) [n]) && 0 <= n && 0 < c && c <= 32 && (1<<uint64(32-c)) <= uint64(n) -> (FlagLT_ULT) |
| (CMPQconst (SHRQconst _ [c]) [n]) && 0 <= n && 0 < c && c <= 64 && (1<<uint64(64-c)) <= uint64(n) -> (FlagLT_ULT) |
| (CMPQconst (ANDQconst _ [m]) [n]) && 0 <= m && m < n -> (FlagLT_ULT) |
| (CMPQconst (ANDLconst _ [m]) [n]) && 0 <= m && m < n -> (FlagLT_ULT) |
| (CMPLconst (ANDLconst _ [m]) [n]) && 0 <= int32(m) && int32(m) < int32(n) -> (FlagLT_ULT) |
| (CMPWconst (ANDLconst _ [m]) [n]) && 0 <= int16(m) && int16(m) < int16(n) -> (FlagLT_ULT) |
| (CMPBconst (ANDLconst _ [m]) [n]) && 0 <= int8(m) && int8(m) < int8(n) -> (FlagLT_ULT) |
| |
| // TODO: DIVxU also. |
| |
| // Absorb flag constants into SBB ops. |
| (SBBQcarrymask (FlagEQ)) -> (MOVQconst [0]) |
| (SBBQcarrymask (FlagLT_ULT)) -> (MOVQconst [-1]) |
| (SBBQcarrymask (FlagLT_UGT)) -> (MOVQconst [0]) |
| (SBBQcarrymask (FlagGT_ULT)) -> (MOVQconst [-1]) |
| (SBBQcarrymask (FlagGT_UGT)) -> (MOVQconst [0]) |
| (SBBLcarrymask (FlagEQ)) -> (MOVLconst [0]) |
| (SBBLcarrymask (FlagLT_ULT)) -> (MOVLconst [-1]) |
| (SBBLcarrymask (FlagLT_UGT)) -> (MOVLconst [0]) |
| (SBBLcarrymask (FlagGT_ULT)) -> (MOVLconst [-1]) |
| (SBBLcarrymask (FlagGT_UGT)) -> (MOVLconst [0]) |
| |
| // Absorb flag constants into branches. |
| ((EQ|LE|GE|ULE|UGE) (FlagEQ) yes no) -> (First yes no) |
| ((NE|LT|GT|ULT|UGT) (FlagEQ) yes no) -> (First no yes) |
| ((NE|LT|LE|ULT|ULE) (FlagLT_ULT) yes no) -> (First yes no) |
| ((EQ|GT|GE|UGT|UGE) (FlagLT_ULT) yes no) -> (First no yes) |
| ((NE|LT|LE|UGT|UGE) (FlagLT_UGT) yes no) -> (First yes no) |
| ((EQ|GT|GE|ULT|ULE) (FlagLT_UGT) yes no) -> (First no yes) |
| ((NE|GT|GE|ULT|ULE) (FlagGT_ULT) yes no) -> (First yes no) |
| ((EQ|LT|LE|UGT|UGE) (FlagGT_ULT) yes no) -> (First no yes) |
| ((NE|GT|GE|UGT|UGE) (FlagGT_UGT) yes no) -> (First yes no) |
| ((EQ|LT|LE|ULT|ULE) (FlagGT_UGT) yes no) -> (First no yes) |
| |
| // Absorb flag constants into SETxx ops. |
| ((SETEQ|SETLE|SETGE|SETBE|SETAE) (FlagEQ)) -> (MOVLconst [1]) |
| ((SETNE|SETL|SETG|SETB|SETA) (FlagEQ)) -> (MOVLconst [0]) |
| ((SETNE|SETL|SETLE|SETB|SETBE) (FlagLT_ULT)) -> (MOVLconst [1]) |
| ((SETEQ|SETG|SETGE|SETA|SETAE) (FlagLT_ULT)) -> (MOVLconst [0]) |
| ((SETNE|SETL|SETLE|SETA|SETAE) (FlagLT_UGT)) -> (MOVLconst [1]) |
| ((SETEQ|SETG|SETGE|SETB|SETBE) (FlagLT_UGT)) -> (MOVLconst [0]) |
| ((SETNE|SETG|SETGE|SETB|SETBE) (FlagGT_ULT)) -> (MOVLconst [1]) |
| ((SETEQ|SETL|SETLE|SETA|SETAE) (FlagGT_ULT)) -> (MOVLconst [0]) |
| ((SETNE|SETG|SETGE|SETA|SETAE) (FlagGT_UGT)) -> (MOVLconst [1]) |
| ((SETEQ|SETL|SETLE|SETB|SETBE) (FlagGT_UGT)) -> (MOVLconst [0]) |
| |
| (SETEQstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETEQstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETEQstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETEQstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETEQstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| |
| (SETNEstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETNEstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETNEstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETNEstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETNEstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| |
| (SETLstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETLstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETLstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETLstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETLstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| |
| (SETLEstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETLEstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETLEstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETLEstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETLEstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| |
| (SETGstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETGstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETGstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETGstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETGstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| |
| (SETGEstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETGEstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETGEstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETGEstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETGEstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| |
| (SETBstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETBstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETBstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETBstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETBstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| |
| (SETBEstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETBEstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETBEstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETBEstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETBEstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| |
| (SETAstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETAstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETAstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETAstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETAstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| |
| (SETAEstore [off] {sym} ptr (FlagEQ) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETAEstore [off] {sym} ptr (FlagLT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETAEstore [off] {sym} ptr (FlagLT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| (SETAEstore [off] {sym} ptr (FlagGT_ULT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [0]) mem) |
| (SETAEstore [off] {sym} ptr (FlagGT_UGT) mem) -> (MOVBstore [off] {sym} ptr (MOVLconst <typ.UInt8> [1]) mem) |
| |
| // Remove redundant *const ops |
| (ADDQconst [0] x) -> x |
| (ADDLconst [c] x) && int32(c)==0 -> x |
| (SUBQconst [0] x) -> x |
| (SUBLconst [c] x) && int32(c) == 0 -> x |
| (ANDQconst [0] _) -> (MOVQconst [0]) |
| (ANDLconst [c] _) && int32(c)==0 -> (MOVLconst [0]) |
| (ANDQconst [-1] x) -> x |
| (ANDLconst [c] x) && int32(c)==-1 -> x |
| (ORQconst [0] x) -> x |
| (ORLconst [c] x) && int32(c)==0 -> x |
| (ORQconst [-1] _) -> (MOVQconst [-1]) |
| (ORLconst [c] _) && int32(c)==-1 -> (MOVLconst [-1]) |
| (XORQconst [0] x) -> x |
| (XORLconst [c] x) && int32(c)==0 -> x |
| // TODO: since we got rid of the W/B versions, we might miss |
| // things like (ANDLconst [0x100] x) which were formerly |
| // (ANDBconst [0] x). Probably doesn't happen very often. |
| // If we cared, we might do: |
| // (ANDLconst <t> [c] x) && t.Size()==1 && int8(x)==0 -> (MOVLconst [0]) |
| |
| // Remove redundant ops |
| // Not in generic rules, because they may appear after lowering e. g. Slicemask |
| (NEG(Q|L) (NEG(Q|L) x)) -> x |
| (NEG(Q|L) s:(SUB(Q|L) x y)) && s.Uses == 1 -> (SUB(Q|L) y x) |
| |
| // Convert constant subtracts to constant adds |
| (SUBQconst [c] x) && c != -(1<<31) -> (ADDQconst [-c] x) |
| (SUBLconst [c] x) -> (ADDLconst [int64(int32(-c))] x) |
| |
| // generic constant folding |
| // TODO: more of this |
| (ADDQconst [c] (MOVQconst [d])) -> (MOVQconst [c+d]) |
| (ADDLconst [c] (MOVLconst [d])) -> (MOVLconst [int64(int32(c+d))]) |
| (ADDQconst [c] (ADDQconst [d] x)) && is32Bit(c+d) -> (ADDQconst [c+d] x) |
| (ADDLconst [c] (ADDLconst [d] x)) -> (ADDLconst [int64(int32(c+d))] x) |
| (SUBQconst (MOVQconst [d]) [c]) -> (MOVQconst [d-c]) |
| (SUBQconst (SUBQconst x [d]) [c]) && is32Bit(-c-d) -> (ADDQconst [-c-d] x) |
| (SARQconst [c] (MOVQconst [d])) -> (MOVQconst [d>>uint64(c)]) |
| (SARLconst [c] (MOVQconst [d])) -> (MOVQconst [int64(int32(d))>>uint64(c)]) |
| (SARWconst [c] (MOVQconst [d])) -> (MOVQconst [int64(int16(d))>>uint64(c)]) |
| (SARBconst [c] (MOVQconst [d])) -> (MOVQconst [int64(int8(d))>>uint64(c)]) |
| (NEGQ (MOVQconst [c])) -> (MOVQconst [-c]) |
| (NEGL (MOVLconst [c])) -> (MOVLconst [int64(int32(-c))]) |
| (MULQconst [c] (MOVQconst [d])) -> (MOVQconst [c*d]) |
| (MULLconst [c] (MOVLconst [d])) -> (MOVLconst [int64(int32(c*d))]) |
| (ANDQconst [c] (MOVQconst [d])) -> (MOVQconst [c&d]) |
| (ANDLconst [c] (MOVLconst [d])) -> (MOVLconst [c&d]) |
| (ORQconst [c] (MOVQconst [d])) -> (MOVQconst [c|d]) |
| (ORLconst [c] (MOVLconst [d])) -> (MOVLconst [c|d]) |
| (XORQconst [c] (MOVQconst [d])) -> (MOVQconst [c^d]) |
| (XORLconst [c] (MOVLconst [d])) -> (MOVLconst [c^d]) |
| (NOTQ (MOVQconst [c])) -> (MOVQconst [^c]) |
| (NOTL (MOVLconst [c])) -> (MOVLconst [^c]) |
| (BTSQconst [c] (MOVQconst [d])) -> (MOVQconst [d|(1<<uint32(c))]) |
| (BTSLconst [c] (MOVLconst [d])) -> (MOVLconst [d|(1<<uint32(c))]) |
| (BTRQconst [c] (MOVQconst [d])) -> (MOVQconst [d&^(1<<uint32(c))]) |
| (BTRLconst [c] (MOVLconst [d])) -> (MOVLconst [d&^(1<<uint32(c))]) |
| (BTCQconst [c] (MOVQconst [d])) -> (MOVQconst [d^(1<<uint32(c))]) |
| (BTCLconst [c] (MOVLconst [d])) -> (MOVLconst [d^(1<<uint32(c))]) |
| |
| // generic simplifications |
| // TODO: more of this |
| (ADDQ x (NEGQ y)) -> (SUBQ x y) |
| (ADDL x (NEGL y)) -> (SUBL x y) |
| (SUBQ x x) -> (MOVQconst [0]) |
| (SUBL x x) -> (MOVLconst [0]) |
| (ANDQ x x) -> x |
| (ANDL x x) -> x |
| (ORQ x x) -> x |
| (ORL x x) -> x |
| (XORQ x x) -> (MOVQconst [0]) |
| (XORL x x) -> (MOVLconst [0]) |
| |
| // Fold NEG into ADDconst/MULconst. Take care to keep c in 32 bit range. |
| (NEGQ (ADDQconst [c] (NEGQ x))) && c != -(1<<31) -> (ADDQconst [-c] x) |
| (MULQconst [c] (NEGQ x)) && c != -(1<<31) -> (MULQconst [-c] x) |
| |
| // checking AND against 0. |
| (CMPQconst (ANDQ x y) [0]) -> (TESTQ x y) |
| (CMPLconst (ANDL x y) [0]) -> (TESTL x y) |
| (CMPWconst (ANDL x y) [0]) -> (TESTW x y) |
| (CMPBconst (ANDL x y) [0]) -> (TESTB x y) |
| (CMPQconst (ANDQconst [c] x) [0]) -> (TESTQconst [c] x) |
| (CMPLconst (ANDLconst [c] x) [0]) -> (TESTLconst [c] x) |
| (CMPWconst (ANDLconst [c] x) [0]) -> (TESTWconst [int64(int16(c))] x) |
| (CMPBconst (ANDLconst [c] x) [0]) -> (TESTBconst [int64(int8(c))] x) |
| |
| // Convert TESTx to TESTxconst if possible. |
| (TESTQ (MOVQconst [c]) x) && is32Bit(c) -> (TESTQconst [c] x) |
| (TESTL (MOVLconst [c]) x) -> (TESTLconst [c] x) |
| (TESTW (MOVLconst [c]) x) -> (TESTWconst [c] x) |
| (TESTB (MOVLconst [c]) x) -> (TESTBconst [c] x) |
| |
| // TEST %reg,%reg is shorter than CMP |
| (CMPQconst x [0]) -> (TESTQ x x) |
| (CMPLconst x [0]) -> (TESTL x x) |
| (CMPWconst x [0]) -> (TESTW x x) |
| (CMPBconst x [0]) -> (TESTB x x) |
| (TESTQconst [-1] x) && x.Op != OpAMD64MOVQconst -> (TESTQ x x) |
| (TESTLconst [-1] x) && x.Op != OpAMD64MOVLconst -> (TESTL x x) |
| (TESTWconst [-1] x) && x.Op != OpAMD64MOVLconst -> (TESTW x x) |
| (TESTBconst [-1] x) && x.Op != OpAMD64MOVLconst -> (TESTB x x) |
| |
| // Combining byte loads into larger (unaligned) loads. |
| // There are many ways these combinations could occur. This is |
| // designed to match the way encoding/binary.LittleEndian does it. |
| |
| // Little-endian loads |
| |
| (ORL x0:(MOVBload [i0] {s} p mem) |
| sh:(SHLLconst [8] x1:(MOVBload [i1] {s} p mem))) |
| && i1 == i0+1 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVWload [i0] {s} p mem) |
| |
| (ORQ x0:(MOVBload [i0] {s} p mem) |
| sh:(SHLQconst [8] x1:(MOVBload [i1] {s} p mem))) |
| && i1 == i0+1 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVWload [i0] {s} p mem) |
| |
| (ORL x0:(MOVWload [i0] {s} p mem) |
| sh:(SHLLconst [16] x1:(MOVWload [i1] {s} p mem))) |
| && i1 == i0+2 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVLload [i0] {s} p mem) |
| |
| (ORQ x0:(MOVWload [i0] {s} p mem) |
| sh:(SHLQconst [16] x1:(MOVWload [i1] {s} p mem))) |
| && i1 == i0+2 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVLload [i0] {s} p mem) |
| |
| (ORQ x0:(MOVLload [i0] {s} p mem) |
| sh:(SHLQconst [32] x1:(MOVLload [i1] {s} p mem))) |
| && i1 == i0+4 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVQload [i0] {s} p mem) |
| |
| (ORL |
| s1:(SHLLconst [j1] x1:(MOVBload [i1] {s} p mem)) |
| or:(ORL |
| s0:(SHLLconst [j0] x0:(MOVBload [i0] {s} p mem)) |
| y)) |
| && i1 == i0+1 |
| && j1 == j0+8 |
| && j0 % 16 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORL <v.Type> (SHLLconst <v.Type> [j0] (MOVWload [i0] {s} p mem)) y) |
| |
| (ORQ |
| s1:(SHLQconst [j1] x1:(MOVBload [i1] {s} p mem)) |
| or:(ORQ |
| s0:(SHLQconst [j0] x0:(MOVBload [i0] {s} p mem)) |
| y)) |
| && i1 == i0+1 |
| && j1 == j0+8 |
| && j0 % 16 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORQ <v.Type> (SHLQconst <v.Type> [j0] (MOVWload [i0] {s} p mem)) y) |
| |
| (ORQ |
| s1:(SHLQconst [j1] x1:(MOVWload [i1] {s} p mem)) |
| or:(ORQ |
| s0:(SHLQconst [j0] x0:(MOVWload [i0] {s} p mem)) |
| y)) |
| && i1 == i0+2 |
| && j1 == j0+16 |
| && j0 % 32 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORQ <v.Type> (SHLQconst <v.Type> [j0] (MOVLload [i0] {s} p mem)) y) |
| |
| // Little-endian indexed loads |
| |
| (ORL x0:(MOVBloadidx1 [i0] {s} p idx mem) |
| sh:(SHLLconst [8] x1:(MOVBloadidx1 [i1] {s} p idx mem))) |
| && i1 == i0+1 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVWloadidx1 <v.Type> [i0] {s} p idx mem) |
| |
| (ORQ x0:(MOVBloadidx1 [i0] {s} p idx mem) |
| sh:(SHLQconst [8] x1:(MOVBloadidx1 [i1] {s} p idx mem))) |
| && i1 == i0+1 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVWloadidx1 <v.Type> [i0] {s} p idx mem) |
| |
| (ORL x0:(MOVWloadidx1 [i0] {s} p idx mem) |
| sh:(SHLLconst [16] x1:(MOVWloadidx1 [i1] {s} p idx mem))) |
| && i1 == i0+2 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVLloadidx1 [i0] {s} p idx mem) |
| |
| (ORQ x0:(MOVWloadidx1 [i0] {s} p idx mem) |
| sh:(SHLQconst [16] x1:(MOVWloadidx1 [i1] {s} p idx mem))) |
| && i1 == i0+2 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVLloadidx1 [i0] {s} p idx mem) |
| |
| (ORQ x0:(MOVLloadidx1 [i0] {s} p idx mem) |
| sh:(SHLQconst [32] x1:(MOVLloadidx1 [i1] {s} p idx mem))) |
| && i1 == i0+4 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (MOVQloadidx1 [i0] {s} p idx mem) |
| |
| (ORL |
| s1:(SHLLconst [j1] x1:(MOVBloadidx1 [i1] {s} p idx mem)) |
| or:(ORL |
| s0:(SHLLconst [j0] x0:(MOVBloadidx1 [i0] {s} p idx mem)) |
| y)) |
| && i1 == i0+1 |
| && j1 == j0+8 |
| && j0 % 16 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORL <v.Type> (SHLLconst <v.Type> [j0] (MOVWloadidx1 [i0] {s} p idx mem)) y) |
| |
| (ORQ |
| s1:(SHLQconst [j1] x1:(MOVBloadidx1 [i1] {s} p idx mem)) |
| or:(ORQ |
| s0:(SHLQconst [j0] x0:(MOVBloadidx1 [i0] {s} p idx mem)) |
| y)) |
| && i1 == i0+1 |
| && j1 == j0+8 |
| && j0 % 16 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORQ <v.Type> (SHLQconst <v.Type> [j0] (MOVWloadidx1 [i0] {s} p idx mem)) y) |
| |
| (ORQ |
| s1:(SHLQconst [j1] x1:(MOVWloadidx1 [i1] {s} p idx mem)) |
| or:(ORQ |
| s0:(SHLQconst [j0] x0:(MOVWloadidx1 [i0] {s} p idx mem)) |
| y)) |
| && i1 == i0+2 |
| && j1 == j0+16 |
| && j0 % 32 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORQ <v.Type> (SHLQconst <v.Type> [j0] (MOVLloadidx1 [i0] {s} p idx mem)) y) |
| |
| // Big-endian loads |
| |
| (ORL |
| x1:(MOVBload [i1] {s} p mem) |
| sh:(SHLLconst [8] x0:(MOVBload [i0] {s} p mem))) |
| && i1 == i0+1 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (ROLWconst <v.Type> [8] (MOVWload [i0] {s} p mem)) |
| |
| (ORQ |
| x1:(MOVBload [i1] {s} p mem) |
| sh:(SHLQconst [8] x0:(MOVBload [i0] {s} p mem))) |
| && i1 == i0+1 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (ROLWconst <v.Type> [8] (MOVWload [i0] {s} p mem)) |
| |
| (ORL |
| r1:(ROLWconst [8] x1:(MOVWload [i1] {s} p mem)) |
| sh:(SHLLconst [16] r0:(ROLWconst [8] x0:(MOVWload [i0] {s} p mem)))) |
| && i1 == i0+2 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && r0.Uses == 1 |
| && r1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(r0) |
| && clobber(r1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (BSWAPL <v.Type> (MOVLload [i0] {s} p mem)) |
| |
| (ORQ |
| r1:(ROLWconst [8] x1:(MOVWload [i1] {s} p mem)) |
| sh:(SHLQconst [16] r0:(ROLWconst [8] x0:(MOVWload [i0] {s} p mem)))) |
| && i1 == i0+2 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && r0.Uses == 1 |
| && r1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(r0) |
| && clobber(r1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (BSWAPL <v.Type> (MOVLload [i0] {s} p mem)) |
| |
| (ORQ |
| r1:(BSWAPL x1:(MOVLload [i1] {s} p mem)) |
| sh:(SHLQconst [32] r0:(BSWAPL x0:(MOVLload [i0] {s} p mem)))) |
| && i1 == i0+4 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && r0.Uses == 1 |
| && r1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(r0) |
| && clobber(r1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (BSWAPQ <v.Type> (MOVQload [i0] {s} p mem)) |
| |
| (ORL |
| s0:(SHLLconst [j0] x0:(MOVBload [i0] {s} p mem)) |
| or:(ORL |
| s1:(SHLLconst [j1] x1:(MOVBload [i1] {s} p mem)) |
| y)) |
| && i1 == i0+1 |
| && j1 == j0-8 |
| && j1 % 16 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORL <v.Type> (SHLLconst <v.Type> [j1] (ROLWconst <typ.UInt16> [8] (MOVWload [i0] {s} p mem))) y) |
| |
| (ORQ |
| s0:(SHLQconst [j0] x0:(MOVBload [i0] {s} p mem)) |
| or:(ORQ |
| s1:(SHLQconst [j1] x1:(MOVBload [i1] {s} p mem)) |
| y)) |
| && i1 == i0+1 |
| && j1 == j0-8 |
| && j1 % 16 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORQ <v.Type> (SHLQconst <v.Type> [j1] (ROLWconst <typ.UInt16> [8] (MOVWload [i0] {s} p mem))) y) |
| |
| (ORQ |
| s0:(SHLQconst [j0] r0:(ROLWconst [8] x0:(MOVWload [i0] {s} p mem))) |
| or:(ORQ |
| s1:(SHLQconst [j1] r1:(ROLWconst [8] x1:(MOVWload [i1] {s} p mem))) |
| y)) |
| && i1 == i0+2 |
| && j1 == j0-16 |
| && j1 % 32 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && r0.Uses == 1 |
| && r1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(r0) |
| && clobber(r1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORQ <v.Type> (SHLQconst <v.Type> [j1] (BSWAPL <typ.UInt32> (MOVLload [i0] {s} p mem))) y) |
| |
| // Big-endian indexed loads |
| |
| (ORL |
| x1:(MOVBloadidx1 [i1] {s} p idx mem) |
| sh:(SHLLconst [8] x0:(MOVBloadidx1 [i0] {s} p idx mem))) |
| && i1 == i0+1 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (ROLWconst <v.Type> [8] (MOVWloadidx1 [i0] {s} p idx mem)) |
| |
| (ORQ |
| x1:(MOVBloadidx1 [i1] {s} p idx mem) |
| sh:(SHLQconst [8] x0:(MOVBloadidx1 [i0] {s} p idx mem))) |
| && i1 == i0+1 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (ROLWconst <v.Type> [8] (MOVWloadidx1 [i0] {s} p idx mem)) |
| |
| (ORL |
| r1:(ROLWconst [8] x1:(MOVWloadidx1 [i1] {s} p idx mem)) |
| sh:(SHLLconst [16] r0:(ROLWconst [8] x0:(MOVWloadidx1 [i0] {s} p idx mem)))) |
| && i1 == i0+2 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && r0.Uses == 1 |
| && r1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(r0) |
| && clobber(r1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (BSWAPL <v.Type> (MOVLloadidx1 [i0] {s} p idx mem)) |
| |
| (ORQ |
| r1:(ROLWconst [8] x1:(MOVWloadidx1 [i1] {s} p idx mem)) |
| sh:(SHLQconst [16] r0:(ROLWconst [8] x0:(MOVWloadidx1 [i0] {s} p idx mem)))) |
| && i1 == i0+2 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && r0.Uses == 1 |
| && r1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(r0) |
| && clobber(r1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (BSWAPL <v.Type> (MOVLloadidx1 [i0] {s} p idx mem)) |
| |
| (ORQ |
| r1:(BSWAPL x1:(MOVLloadidx1 [i1] {s} p idx mem)) |
| sh:(SHLQconst [32] r0:(BSWAPL x0:(MOVLloadidx1 [i0] {s} p idx mem)))) |
| && i1 == i0+4 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && r0.Uses == 1 |
| && r1.Uses == 1 |
| && sh.Uses == 1 |
| && mergePoint(b,x0,x1) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(r0) |
| && clobber(r1) |
| && clobber(sh) |
| -> @mergePoint(b,x0,x1) (BSWAPQ <v.Type> (MOVQloadidx1 [i0] {s} p idx mem)) |
| |
| (ORL |
| s0:(SHLLconst [j0] x0:(MOVBloadidx1 [i0] {s} p idx mem)) |
| or:(ORL |
| s1:(SHLLconst [j1] x1:(MOVBloadidx1 [i1] {s} p idx mem)) |
| y)) |
| && i1 == i0+1 |
| && j1 == j0-8 |
| && j1 % 16 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORL <v.Type> (SHLLconst <v.Type> [j1] (ROLWconst <typ.UInt16> [8] (MOVWloadidx1 [i0] {s} p idx mem))) y) |
| |
| (ORQ |
| s0:(SHLQconst [j0] x0:(MOVBloadidx1 [i0] {s} p idx mem)) |
| or:(ORQ |
| s1:(SHLQconst [j1] x1:(MOVBloadidx1 [i1] {s} p idx mem)) |
| y)) |
| && i1 == i0+1 |
| && j1 == j0-8 |
| && j1 % 16 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORQ <v.Type> (SHLQconst <v.Type> [j1] (ROLWconst <typ.UInt16> [8] (MOVWloadidx1 [i0] {s} p idx mem))) y) |
| |
| (ORQ |
| s0:(SHLQconst [j0] r0:(ROLWconst [8] x0:(MOVWloadidx1 [i0] {s} p idx mem))) |
| or:(ORQ |
| s1:(SHLQconst [j1] r1:(ROLWconst [8] x1:(MOVWloadidx1 [i1] {s} p idx mem))) |
| y)) |
| && i1 == i0+2 |
| && j1 == j0-16 |
| && j1 % 32 == 0 |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && r0.Uses == 1 |
| && r1.Uses == 1 |
| && s0.Uses == 1 |
| && s1.Uses == 1 |
| && or.Uses == 1 |
| && mergePoint(b,x0,x1,y) != nil |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(r0) |
| && clobber(r1) |
| && clobber(s0) |
| && clobber(s1) |
| && clobber(or) |
| -> @mergePoint(b,x0,x1,y) (ORQ <v.Type> (SHLQconst <v.Type> [j1] (BSWAPL <typ.UInt32> (MOVLloadidx1 [i0] {s} p idx mem))) y) |
| |
| // Combine 2 byte stores + shift into rolw 8 + word store |
| (MOVBstore [i] {s} p w |
| x0:(MOVBstore [i-1] {s} p (SHRWconst [8] w) mem)) |
| && x0.Uses == 1 |
| && clobber(x0) |
| -> (MOVWstore [i-1] {s} p (ROLWconst <w.Type> [8] w) mem) |
| |
| (MOVBstoreidx1 [i] {s} p idx w |
| x0:(MOVBstoreidx1 [i-1] {s} p idx (SHRWconst [8] w) mem)) |
| && x0.Uses == 1 |
| && clobber(x0) |
| -> (MOVWstoreidx1 [i-1] {s} p idx (ROLWconst <w.Type> [8] w) mem) |
| |
| // Combine stores + shifts into bswap and larger (unaligned) stores |
| (MOVBstore [i] {s} p w |
| x2:(MOVBstore [i-1] {s} p (SHRLconst [8] w) |
| x1:(MOVBstore [i-2] {s} p (SHRLconst [16] w) |
| x0:(MOVBstore [i-3] {s} p (SHRLconst [24] w) mem)))) |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && x2.Uses == 1 |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(x2) |
| -> (MOVLstore [i-3] {s} p (BSWAPL <w.Type> w) mem) |
| |
| (MOVBstoreidx1 [i] {s} p idx w |
| x2:(MOVBstoreidx1 [i-1] {s} p idx (SHRLconst [8] w) |
| x1:(MOVBstoreidx1 [i-2] {s} p idx (SHRLconst [16] w) |
| x0:(MOVBstoreidx1 [i-3] {s} p idx (SHRLconst [24] w) mem)))) |
| && x0.Uses == 1 |
| && x1.Uses == 1 |
| && x2.Uses == 1 |
| && clobber(x0) |
| && clobber(x1) |
| && clobber(x2) |
| -> (MOVLstoreidx1 [i-3] {s} p idx (BSWAPL <w.Type> w) mem) |
| |
| (MOVBstore [i] {s} p w |
| x6:(MOVBstore [i-1] {s} p (SHRQconst [8] w) |
| x5:(MOVBstore [i-2] {s} p (SHRQconst [16] w) |
| x4:(MOVBstore [i-3] {s} p (SHRQconst [24] w) |
| x3:(MOVBstore [i-4] {s} p (SHRQconst [32] w) |
| x2:(MOVBstore [i-5] {s} p (SHRQconst [40] w) |
| x1:(MOVBstore [i-6] {s} p (SHRQconst [48] w) |
| x0:(MOVBstore [i-7] {s} p (SHRQconst [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) |
| && clobber(x1) |
| && clobber(x2) |
| && clobber(x3) |
| && clobber(x4) |
| && clobber(x5) |
| && clobber(x6) |
| -> (MOVQstore [i-7] {s} p (BSWAPQ <w.Type> w) mem) |
| |
| (MOVBstoreidx1 [i] {s} p idx w |
| x6:(MOVBstoreidx1 [i-1] {s} p idx (SHRQconst [8] w) |
| x5:(MOVBstoreidx1 [i-2] {s} p idx (SHRQconst [16] w) |
| x4:(MOVBstoreidx1 [i-3] {s} p idx (SHRQconst [24] w) |
| x3:(MOVBstoreidx1 [i-4] {s} p idx (SHRQconst [32] w) |
| x2:(MOVBstoreidx1 [i-5] {s} p idx (SHRQconst [40] w) |
| x1:(MOVBstoreidx1 [i-6] {s} p idx (SHRQconst [48] w) |
| x0:(MOVBstoreidx1 [i-7] {s} p idx (SHRQconst [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) |
| && clobber(x1) |
| && clobber(x2) |
| && clobber(x3) |
| && clobber(x4) |
| && clobber(x5) |
| && clobber(x6) |
| -> (MOVQstoreidx1 [i-7] {s} p idx (BSWAPQ <w.Type> w) mem) |
| |
| // Combine constant stores into larger (unaligned) stores. |
| (MOVBstoreconst [c] {s} p x:(MOVBstoreconst [a] {s} p mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 1 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVWstoreconst [makeValAndOff(ValAndOff(a).Val()&0xff | ValAndOff(c).Val()<<8, ValAndOff(a).Off())] {s} p mem) |
| (MOVBstoreconst [a] {s} p x:(MOVBstoreconst [c] {s} p mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 1 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVWstoreconst [makeValAndOff(ValAndOff(a).Val()&0xff | ValAndOff(c).Val()<<8, ValAndOff(a).Off())] {s} p mem) |
| (MOVWstoreconst [c] {s} p x:(MOVWstoreconst [a] {s} p mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 2 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVLstoreconst [makeValAndOff(ValAndOff(a).Val()&0xffff | ValAndOff(c).Val()<<16, ValAndOff(a).Off())] {s} p mem) |
| (MOVWstoreconst [a] {s} p x:(MOVWstoreconst [c] {s} p mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 2 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVLstoreconst [makeValAndOff(ValAndOff(a).Val()&0xffff | ValAndOff(c).Val()<<16, ValAndOff(a).Off())] {s} p mem) |
| (MOVLstoreconst [c] {s} p x:(MOVLstoreconst [a] {s} p mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 4 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVQstore [ValAndOff(a).Off()] {s} p (MOVQconst [ValAndOff(a).Val()&0xffffffff | ValAndOff(c).Val()<<32]) mem) |
| (MOVLstoreconst [a] {s} p x:(MOVLstoreconst [c] {s} p mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 4 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVQstore [ValAndOff(a).Off()] {s} p (MOVQconst [ValAndOff(a).Val()&0xffffffff | ValAndOff(c).Val()<<32]) mem) |
| (MOVQstoreconst [c] {s} p x:(MOVQstoreconst [c2] {s} p mem)) |
| && config.useSSE |
| && x.Uses == 1 |
| && ValAndOff(c2).Off() + 8 == ValAndOff(c).Off() |
| && ValAndOff(c).Val() == 0 |
| && ValAndOff(c2).Val() == 0 |
| && clobber(x) |
| -> (MOVOstore [ValAndOff(c2).Off()] {s} p (MOVOconst [0]) mem) |
| |
| (MOVBstoreconstidx1 [c] {s} p i x:(MOVBstoreconstidx1 [a] {s} p i mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 1 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVWstoreconstidx1 [makeValAndOff(ValAndOff(a).Val()&0xff | ValAndOff(c).Val()<<8, ValAndOff(a).Off())] {s} p i mem) |
| (MOVWstoreconstidx1 [c] {s} p i x:(MOVWstoreconstidx1 [a] {s} p i mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 2 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVLstoreconstidx1 [makeValAndOff(ValAndOff(a).Val()&0xffff | ValAndOff(c).Val()<<16, ValAndOff(a).Off())] {s} p i mem) |
| (MOVLstoreconstidx1 [c] {s} p i x:(MOVLstoreconstidx1 [a] {s} p i mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 4 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVQstoreidx1 [ValAndOff(a).Off()] {s} p i (MOVQconst [ValAndOff(a).Val()&0xffffffff | ValAndOff(c).Val()<<32]) mem) |
| |
| (MOVWstoreconstidx2 [c] {s} p i x:(MOVWstoreconstidx2 [a] {s} p i mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 2 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVLstoreconstidx1 [makeValAndOff(ValAndOff(a).Val()&0xffff | ValAndOff(c).Val()<<16, ValAndOff(a).Off())] {s} p (SHLQconst <i.Type> [1] i) mem) |
| (MOVLstoreconstidx4 [c] {s} p i x:(MOVLstoreconstidx4 [a] {s} p i mem)) |
| && x.Uses == 1 |
| && ValAndOff(a).Off() + 4 == ValAndOff(c).Off() |
| && clobber(x) |
| -> (MOVQstoreidx1 [ValAndOff(a).Off()] {s} p (SHLQconst <i.Type> [2] i) (MOVQconst [ValAndOff(a).Val()&0xffffffff | ValAndOff(c).Val()<<32]) mem) |
| |
| // Combine stores into larger (unaligned) stores. |
| (MOVBstore [i] {s} p (SHR(W|L|Q)const [8] w) x:(MOVBstore [i-1] {s} p w mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVWstore [i-1] {s} p w mem) |
| (MOVBstore [i] {s} p w x:(MOVBstore [i+1] {s} p (SHR(W|L|Q)const [8] w) mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVWstore [i] {s} p w mem) |
| (MOVBstore [i] {s} p (SHR(L|Q)const [j] w) x:(MOVBstore [i-1] {s} p w0:(SHR(L|Q)const [j-8] w) mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVWstore [i-1] {s} p w0 mem) |
| (MOVWstore [i] {s} p (SHR(L|Q)const [16] w) x:(MOVWstore [i-2] {s} p w mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVLstore [i-2] {s} p w mem) |
| (MOVWstore [i] {s} p (SHR(L|Q)const [j] w) x:(MOVWstore [i-2] {s} p w0:(SHR(L|Q)const [j-16] w) mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVLstore [i-2] {s} p w0 mem) |
| (MOVLstore [i] {s} p (SHRQconst [32] w) x:(MOVLstore [i-4] {s} p w mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVQstore [i-4] {s} p w mem) |
| (MOVLstore [i] {s} p (SHRQconst [j] w) x:(MOVLstore [i-4] {s} p w0:(SHRQconst [j-32] w) mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVQstore [i-4] {s} p w0 mem) |
| |
| (MOVBstoreidx1 [i] {s} p idx (SHR(W|L|Q)const [8] w) x:(MOVBstoreidx1 [i-1] {s} p idx w mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVWstoreidx1 [i-1] {s} p idx w mem) |
| (MOVBstoreidx1 [i] {s} p idx (SHR(L|Q)const [j] w) x:(MOVBstoreidx1 [i-1] {s} p idx w0:(SHR(L|Q)const [j-8] w) mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVWstoreidx1 [i-1] {s} p idx w0 mem) |
| (MOVWstoreidx1 [i] {s} p idx (SHR(L|Q)const [16] w) x:(MOVWstoreidx1 [i-2] {s} p idx w mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVLstoreidx1 [i-2] {s} p idx w mem) |
| (MOVWstoreidx1 [i] {s} p idx (SHR(L|Q)const [j] w) x:(MOVWstoreidx1 [i-2] {s} p idx w0:(SHR(L|Q)const [j-16] w) mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVLstoreidx1 [i-2] {s} p idx w0 mem) |
| (MOVLstoreidx1 [i] {s} p idx (SHRQconst [32] w) x:(MOVLstoreidx1 [i-4] {s} p idx w mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVQstoreidx1 [i-4] {s} p idx w mem) |
| (MOVLstoreidx1 [i] {s} p idx (SHRQconst [j] w) x:(MOVLstoreidx1 [i-4] {s} p idx w0:(SHRQconst [j-32] w) mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVQstoreidx1 [i-4] {s} p idx w0 mem) |
| |
| (MOVWstoreidx2 [i] {s} p idx (SHR(L|Q)const [16] w) x:(MOVWstoreidx2 [i-2] {s} p idx w mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVLstoreidx1 [i-2] {s} p (SHLQconst <idx.Type> [1] idx) w mem) |
| (MOVWstoreidx2 [i] {s} p idx (SHRQconst [j] w) x:(MOVWstoreidx2 [i-2] {s} p idx w0:(SHRQconst [j-16] w) mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVLstoreidx1 [i-2] {s} p (SHLQconst <idx.Type> [1] idx) w0 mem) |
| (MOVLstoreidx4 [i] {s} p idx (SHRQconst [32] w) x:(MOVLstoreidx4 [i-4] {s} p idx w mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVQstoreidx1 [i-4] {s} p (SHLQconst <idx.Type> [2] idx) w mem) |
| (MOVLstoreidx4 [i] {s} p idx (SHRQconst [j] w) x:(MOVLstoreidx4 [i-4] {s} p idx w0:(SHRQconst [j-32] w) mem)) |
| && x.Uses == 1 |
| && clobber(x) |
| -> (MOVQstoreidx1 [i-4] {s} p (SHLQconst <idx.Type> [2] idx) w0 mem) |
| |
| (MOVBstore [i] {s} p |
| x1:(MOVBload [j] {s2} p2 mem) |
| mem2:(MOVBstore [i-1] {s} p |
| x2:(MOVBload [j-1] {s2} p2 mem) mem)) |
| && x1.Uses == 1 |
| && x2.Uses == 1 |
| && mem2.Uses == 1 |
| && clobber(x1) |
| && clobber(x2) |
| && clobber(mem2) |
| -> (MOVWstore [i-1] {s} p (MOVWload [j-1] {s2} p2 mem) mem) |
| |
| (MOVWstore [i] {s} p |
| x1:(MOVWload [j] {s2} p2 mem) |
| mem2:(MOVWstore [i-2] {s} p |
| x2:(MOVWload [j-2] {s2} p2 mem) mem)) |
| && x1.Uses == 1 |
| && x2.Uses == 1 |
| && mem2.Uses == 1 |
| && clobber(x1) |
| && clobber(x2) |
| && clobber(mem2) |
| -> (MOVLstore [i-2] {s} p (MOVLload [j-2] {s2} p2 mem) mem) |
| |
| (MOVLstore [i] {s} p |
| x1:(MOVLload [j] {s2} p2 mem) |
| mem2:(MOVLstore [i-4] {s} p |
| x2:(MOVLload [j-4] {s2} p2 mem) mem)) |
| && x1.Uses == 1 |
| && x2.Uses == 1 |
| && mem2.Uses == 1 |
| && clobber(x1) |
| && clobber(x2) |
| && clobber(mem2) |
| -> (MOVQstore [i-4] {s} p (MOVQload [j-4] {s2} p2 mem) mem) |
| |
| (MOVQload [off1] {sym1} (LEAL [off2] {sym2} base) mem) && canMergeSym(sym1, sym2) && is32Bit(off1+off2) -> |
| (MOVQload [off1+off2] {mergeSym(sym1,sym2)} base mem) |
| (MOVLload [off1] {sym1} (LEAL [off2] {sym2} base) mem) && canMergeSym(sym1, sym2) && is32Bit(off1+off2) -> |
| (MOVLload [off1+off2] {mergeSym(sym1,sym2)} base mem) |
| (MOVWload [off1] {sym1} (LEAL [off2] {sym2} base) mem) && canMergeSym(sym1, sym2) && is32Bit(off1+off2) -> |
| (MOVWload [off1+off2] {mergeSym(sym1,sym2)} base mem) |
| (MOVBload [off1] {sym1} (LEAL [off2] {sym2} base) mem) && canMergeSym(sym1, sym2) && is32Bit(off1+off2) -> |
| (MOVBload [off1+off2] {mergeSym(sym1,sym2)} base mem) |
| |
| (MOVQstore [off1] {sym1} (LEAL [off2] {sym2} base) val mem) && canMergeSym(sym1, sym2) && is32Bit(off1+off2) -> |
| (MOVQstore [off1+off2] {mergeSym(sym1,sym2)} base val mem) |
| (MOVLstore [off1] {sym1} (LEAL [off2] {sym2} base) val mem) && canMergeSym(sym1, sym2) && is32Bit(off1+off2) -> |
| (MOVLstore [off1+off2] {mergeSym(sym1,sym2)} base val mem) |
| (MOVWstore [off1] {sym1} (LEAL [off2] {sym2} base) val mem) && canMergeSym(sym1, sym2) && is32Bit(off1+off2) -> |
| (MOVWstore [off1+off2] {mergeSym(sym1,sym2)} base val mem) |
| (MOVBstore [off1] {sym1} (LEAL [off2] {sym2} base) val mem) && canMergeSym(sym1, sym2) && is32Bit(off1+off2) -> |
| (MOVBstore [off1+off2] {mergeSym(sym1,sym2)} base val mem) |
| |
| (MOVQstoreconst [sc] {sym1} (LEAL [off] {sym2} ptr) mem) && canMergeSym(sym1, sym2) && ValAndOff(sc).canAdd(off) -> |
| (MOVQstoreconst [ValAndOff(sc).add(off)] {mergeSym(sym1, sym2)} ptr mem) |
| (MOVLstoreconst [sc] {sym1} (LEAL [off] {sym2} ptr) mem) && canMergeSym(sym1, sym2) && ValAndOff(sc).canAdd(off) -> |
| (MOVLstoreconst [ValAndOff(sc).add(off)] {mergeSym(sym1, sym2)} ptr mem) |
| (MOVWstoreconst [sc] {sym1} (LEAL [off] {sym2} ptr) mem) && canMergeSym(sym1, sym2) && ValAndOff(sc).canAdd(off) -> |
| (MOVWstoreconst [ValAndOff(sc).add(off)] {mergeSym(sym1, sym2)} ptr mem) |
| (MOVBstoreconst [sc] {sym1} (LEAL [off] {sym2} ptr) mem) && canMergeSym(sym1, sym2) && ValAndOff(sc).canAdd(off) -> |
| (MOVBstoreconst [ValAndOff(sc).add(off)] {mergeSym(sym1, sym2)} ptr mem) |
| |
| (MOVQload [off1] {sym} (ADDLconst [off2] ptr) mem) && is32Bit(off1+off2) -> (MOVQload [off1+off2] {sym} ptr mem) |
| (MOVLload [off1] {sym} (ADDLconst [off2] ptr) mem) && is32Bit(off1+off2) -> (MOVLload [off1+off2] {sym} ptr mem) |
| (MOVWload [off1] {sym} (ADDLconst [off2] ptr) mem) && is32Bit(off1+off2) -> (MOVWload [off1+off2] {sym} ptr mem) |
| (MOVBload [off1] {sym} (ADDLconst [off2] ptr) mem) && is32Bit(off1+off2) -> (MOVBload [off1+off2] {sym} ptr mem) |
| (MOVQstore [off1] {sym} (ADDLconst [off2] ptr) val mem) && is32Bit(off1+off2) -> (MOVQstore [off1+off2] {sym} ptr val mem) |
| (MOVLstore [off1] {sym} (ADDLconst [off2] ptr) val mem) && is32Bit(off1+off2) -> (MOVLstore [off1+off2] {sym} ptr val mem) |
| (MOVWstore [off1] {sym} (ADDLconst [off2] ptr) val mem) && is32Bit(off1+off2) -> (MOVWstore [off1+off2] {sym} ptr val mem) |
| (MOVBstore [off1] {sym} (ADDLconst [off2] ptr) val mem) && is32Bit(off1+off2) -> (MOVBstore [off1+off2] {sym} ptr val mem) |
| (MOVQstoreconst [sc] {s} (ADDLconst [off] ptr) mem) && ValAndOff(sc).canAdd(off) -> |
| (MOVQstoreconst [ValAndOff(sc).add(off)] {s} ptr mem) |
| (MOVLstoreconst [sc] {s} (ADDLconst [off] ptr) mem) && ValAndOff(sc).canAdd(off) -> |
| (MOVLstoreconst [ValAndOff(sc).add(off)] {s} ptr mem) |
| (MOVWstoreconst [sc] {s} (ADDLconst [off] ptr) mem) && ValAndOff(sc).canAdd(off) -> |
| (MOVWstoreconst [ValAndOff(sc).add(off)] {s} ptr mem) |
| (MOVBstoreconst [sc] {s} (ADDLconst [off] ptr) mem) && ValAndOff(sc).canAdd(off) -> |
| (MOVBstoreconst [ValAndOff(sc).add(off)] {s} ptr mem) |
| |
| // Merge load and op |
| // TODO: add indexed variants? |
| ((ADD|SUB|AND|OR|XOR)Q x l:(MOVQload [off] {sym} ptr mem)) && canMergeLoadClobber(v, l, x) && clobber(l) -> ((ADD|SUB|AND|OR|XOR)Qload x [off] {sym} ptr mem) |
| ((ADD|SUB|AND|OR|XOR)L x l:(MOVLload [off] {sym} ptr mem)) && canMergeLoadClobber(v, l, x) && clobber(l) -> ((ADD|SUB|AND|OR|XOR)Lload x [off] {sym} ptr mem) |
| ((ADD|SUB|MUL|DIV)SD x l:(MOVSDload [off] {sym} ptr mem)) && canMergeLoadClobber(v, l, x) && clobber(l) -> ((ADD|SUB|MUL|DIV)SDload x [off] {sym} ptr mem) |
| ((ADD|SUB|MUL|DIV)SS x l:(MOVSSload [off] {sym} ptr mem)) && canMergeLoadClobber(v, l, x) && clobber(l) -> ((ADD|SUB|MUL|DIV)SSload x [off] {sym} ptr mem) |
| (MOVLstore {sym} [off] ptr y:((ADD|AND|OR|XOR)Lload x [off] {sym} ptr mem) mem) && y.Uses==1 && clobber(y) -> ((ADD|AND|OR|XOR)Lmodify [off] {sym} ptr x mem) |
| (MOVLstore {sym} [off] ptr y:((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)L l:(MOVLload [off] {sym} ptr mem) x) mem) && y.Uses==1 && l.Uses==1 && clobber(y) && clobber(l) -> |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Lmodify [off] {sym} ptr x mem) |
| (MOVQstore {sym} [off] ptr y:((ADD|AND|OR|XOR)Qload x [off] {sym} ptr mem) mem) && y.Uses==1 && clobber(y) -> ((ADD|AND|OR|XOR)Qmodify [off] {sym} ptr x mem) |
| (MOVQstore {sym} [off] ptr y:((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Q l:(MOVQload [off] {sym} ptr mem) x) mem) && y.Uses==1 && l.Uses==1 && clobber(y) && clobber(l) -> |
| ((ADD|SUB|AND|OR|XOR|BTC|BTR|BTS)Qmodify [off] {sym} ptr x mem) |
| |
| // Merge ADDQconst and LEAQ into atomic loads. |
| (MOV(Q|L|B)atomicload [off1] {sym} (ADDQconst [off2] ptr) mem) && is32Bit(off1+off2) -> |
| (MOV(Q|L|B)atomicload [off1+off2] {sym} ptr mem) |
| (MOV(Q|L|B)atomicload [off1] {sym1} (LEAQ [off2] {sym2} ptr) mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) -> |
| (MOV(Q|L|B)atomicload [off1+off2] {mergeSym(sym1,sym2)} ptr mem) |
| |
| // Merge ADDQconst and LEAQ into atomic stores. |
| (XCHGQ [off1] {sym} val (ADDQconst [off2] ptr) mem) && is32Bit(off1+off2) -> |
| (XCHGQ [off1+off2] {sym} val ptr mem) |
| (XCHGQ [off1] {sym1} val (LEAQ [off2] {sym2} ptr) mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) && ptr.Op != OpSB -> |
| (XCHGQ [off1+off2] {mergeSym(sym1,sym2)} val ptr mem) |
| (XCHGL [off1] {sym} val (ADDQconst [off2] ptr) mem) && is32Bit(off1+off2) -> |
| (XCHGL [off1+off2] {sym} val ptr mem) |
| (XCHGL [off1] {sym1} val (LEAQ [off2] {sym2} ptr) mem) && is32Bit(off1+off2) && canMergeSym(sym1, sym2) && ptr.Op != OpSB -> |
| (XCHGL [off1+off2] {mergeSym(sym1,sym2)} val ptr mem) |
| |
| // Merge ADDQconst into atomic adds. |
| // TODO: merging LEAQ doesn't work, assembler doesn't like the resulting instructions. |
| (XADDQlock [off1] {sym} val (ADDQconst [off2] ptr) mem) && is32Bit(off1+off2) -> |
| (XADDQlock [off1+off2] {sym} val ptr mem) |
| (XADDLlock [off1] {sym} val (ADDQconst [off2] ptr) mem) && is32Bit(off1+off2) -> |
| (XADDLlock [off1+off2] {sym} val ptr mem) |
| |
| // Merge ADDQconst into atomic compare and swaps. |
| // TODO: merging LEAQ doesn't work, assembler doesn't like the resulting instructions. |
| (CMPXCHGQlock [off1] {sym} (ADDQconst [off2] ptr) old new_ mem) && is32Bit(off1+off2) -> |
| (CMPXCHGQlock [off1+off2] {sym} ptr old new_ mem) |
| (CMPXCHGLlock [off1] {sym} (ADDQconst [off2] ptr) old new_ mem) && is32Bit(off1+off2) -> |
| (CMPXCHGLlock [off1+off2] {sym} ptr old new_ mem) |
| |
| // We don't need the conditional move if we know the arg of BSF is not zero. |
| (CMOVQEQ x _ (Select1 (BSFQ (ORQconst [c] _)))) && c != 0 -> x |
| // Extension is unnecessary for trailing zeros. |
| (BSFQ (ORQconst <t> [1<<8] (MOVBQZX x))) -> (BSFQ (ORQconst <t> [1<<8] x)) |
| (BSFQ (ORQconst <t> [1<<16] (MOVWQZX x))) -> (BSFQ (ORQconst <t> [1<<16] x)) |
| |
| // Simplify indexed loads/stores |
| (MOVBstoreidx1 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+c) -> (MOVBstore [i+c] {s} p w mem) |
| (MOVWstoreidx1 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+c) -> (MOVWstore [i+c] {s} p w mem) |
| (MOVLstoreidx1 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+c) -> (MOVLstore [i+c] {s} p w mem) |
| (MOVQstoreidx1 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+c) -> (MOVQstore [i+c] {s} p w mem) |
| (MOVWstoreidx2 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+2*c) -> (MOVWstore [i+2*c] {s} p w mem) |
| (MOVLstoreidx4 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+4*c) -> (MOVLstore [i+4*c] {s} p w mem) |
| (MOVLstoreidx8 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+8*c) -> (MOVLstore [i+8*c] {s} p w mem) |
| (MOVQstoreidx8 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+8*c) -> (MOVQstore [i+8*c] {s} p w mem) |
| (MOVSSstoreidx1 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+c) -> (MOVSSstore [i+c] {s} p w mem) |
| (MOVSSstoreidx4 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+4*c) -> (MOVSSstore [i+4*c] {s} p w mem) |
| (MOVSDstoreidx1 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+c) -> (MOVSDstore [i+c] {s} p w mem) |
| (MOVSDstoreidx8 [i] {s} p (MOVQconst [c]) w mem) && is32Bit(i+8*c) -> (MOVSDstore [i+8*c] {s} p w mem) |
| (MOVBloadidx1 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+c) -> (MOVBload [i+c] {s} p mem) |
| (MOVWloadidx1 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+c) -> (MOVWload [i+c] {s} p mem) |
| (MOVLloadidx1 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+c) -> (MOVLload [i+c] {s} p mem) |
| (MOVQloadidx1 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+c) -> (MOVQload [i+c] {s} p mem) |
| (MOVWloadidx2 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+2*c) -> (MOVWload [i+2*c] {s} p mem) |
| (MOVLloadidx4 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+4*c) -> (MOVLload [i+4*c] {s} p mem) |
| (MOVLloadidx8 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+8*c) -> (MOVLload [i+8*c] {s} p mem) |
| (MOVQloadidx8 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+8*c) -> (MOVQload [i+8*c] {s} p mem) |
| (MOVSSloadidx1 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+c) -> (MOVSSload [i+c] {s} p mem) |
| (MOVSSloadidx4 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+4*c) -> (MOVSSload [i+4*c] {s} p mem) |
| (MOVSDloadidx1 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+c) -> (MOVSDload [i+c] {s} p mem) |
| (MOVSDloadidx8 [i] {s} p (MOVQconst [c]) mem) && is32Bit(i+8*c) -> (MOVSDload [i+8*c] {s} p mem) |
| |
| // Redundant sign/zero extensions |
| // Note: see issue 21963. We have to make sure we use the right type on |
| // the resulting extension (the outer type, not the inner type). |
| (MOVLQSX (MOVLQSX x)) -> (MOVLQSX x) |
| (MOVLQSX (MOVWQSX x)) -> (MOVWQSX x) |
| (MOVLQSX (MOVBQSX x)) -> (MOVBQSX x) |
| (MOVWQSX (MOVWQSX x)) -> (MOVWQSX x) |
| (MOVWQSX (MOVBQSX x)) -> (MOVBQSX x) |
| (MOVBQSX (MOVBQSX x)) -> (MOVBQSX x) |
| (MOVLQZX (MOVLQZX x)) -> (MOVLQZX x) |
| (MOVLQZX (MOVWQZX x)) -> (MOVWQZX x) |
| (MOVLQZX (MOVBQZX x)) -> (MOVBQZX x) |
| (MOVWQZX (MOVWQZX x)) -> (MOVWQZX x) |
| (MOVWQZX (MOVBQZX x)) -> (MOVBQZX x) |
| (MOVBQZX (MOVBQZX x)) -> (MOVBQZX x) |
| |
| (MOVQstore [off] {sym} ptr a:((ADD|AND|OR|XOR|BTC|BTR|BTS)Qconst [c] l:(MOVQload [off] {sym} ptr2 mem)) mem) |
| && isSamePtr(ptr, ptr2) && a.Uses == 1 && l.Uses == 1 && validValAndOff(c,off) && clobber(l) && clobber(a) -> |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Qconstmodify {sym} [makeValAndOff(c,off)] ptr mem) |
| (MOVLstore [off] {sym} ptr a:((ADD|AND|OR|XOR|BTC|BTR|BTS)Lconst [c] l:(MOVLload [off] {sym} ptr2 mem)) mem) |
| && isSamePtr(ptr, ptr2) && a.Uses == 1 && l.Uses == 1 && validValAndOff(c,off) && clobber(l) && clobber(a) -> |
| ((ADD|AND|OR|XOR|BTC|BTR|BTS)Lconstmodify {sym} [makeValAndOff(c,off)] ptr mem) |
| |
| // float <-> int register moves, with no conversion. |
| // These come up when compiling math.{Float{32,64}bits,Float{32,64}frombits}. |
| (MOVQload [off] {sym} ptr (MOVSDstore [off] {sym} ptr val _)) -> (MOVQf2i val) |
| (MOVLload [off] {sym} ptr (MOVSSstore [off] {sym} ptr val _)) -> (MOVLf2i val) |
| (MOVSDload [off] {sym} ptr (MOVQstore [off] {sym} ptr val _)) -> (MOVQi2f val) |
| (MOVSSload [off] {sym} ptr (MOVLstore [off] {sym} ptr val _)) -> (MOVLi2f val) |
| |
| // Other load-like ops. |
| (ADDQload x [off] {sym} ptr (MOVSDstore [off] {sym} ptr y _)) -> (ADDQ x (MOVQf2i y)) |
| (ADDLload x [off] {sym} ptr (MOVSSstore [off] {sym} ptr y _)) -> (ADDL x (MOVLf2i y)) |
| (SUBQload x [off] {sym} ptr (MOVSDstore [off] {sym} ptr y _)) -> (SUBQ x (MOVQf2i y)) |
| (SUBLload x [off] {sym} ptr (MOVSSstore [off] {sym} ptr y _)) -> (SUBL x (MOVLf2i y)) |
| (ANDQload x [off] {sym} ptr (MOVSDstore [off] {sym} ptr y _)) -> (ANDQ x (MOVQf2i y)) |
| (ANDLload x [off] {sym} ptr (MOVSSstore [off] {sym} ptr y _)) -> (ANDL x (MOVLf2i y)) |
| ( ORQload x [off] {sym} ptr (MOVSDstore [off] {sym} ptr y _)) -> ( ORQ x (MOVQf2i y)) |
| ( ORLload x [off] {sym} ptr (MOVSSstore [off] {sym} ptr y _)) -> ( ORL x (MOVLf2i y)) |
| (XORQload x [off] {sym} ptr (MOVSDstore [off] {sym} ptr y _)) -> (XORQ x (MOVQf2i y)) |
| (XORLload x [off] {sym} ptr (MOVSSstore [off] {sym} ptr y _)) -> (XORL x (MOVLf2i y)) |
| |
| (ADDSDload x [off] {sym} ptr (MOVQstore [off] {sym} ptr y _)) -> (ADDSD x (MOVQi2f y)) |
| (ADDSSload x [off] {sym} ptr (MOVLstore [off] {sym} ptr y _)) -> (ADDSS x (MOVLi2f y)) |
| (SUBSDload x [off] {sym} ptr (MOVQstore [off] {sym} ptr y _)) -> (SUBSD x (MOVQi2f y)) |
| (SUBSSload x [off] {sym} ptr (MOVLstore [off] {sym} ptr y _)) -> (SUBSS x (MOVLi2f y)) |
| (MULSDload x [off] {sym} ptr (MOVQstore [off] {sym} ptr y _)) -> (MULSD x (MOVQi2f y)) |
| (MULSSload x [off] {sym} ptr (MOVLstore [off] {sym} ptr y _)) -> (MULSS x (MOVLi2f y)) |
| |
| // Redirect stores to use the other register set. |
| (MOVQstore [off] {sym} ptr (MOVQf2i val) mem) -> (MOVSDstore [off] {sym} ptr val mem) |
| (MOVLstore [off] {sym} ptr (MOVLf2i val) mem) -> (MOVSSstore [off] {sym} ptr val mem) |
| (MOVSDstore [off] {sym} ptr (MOVQi2f val) mem) -> (MOVQstore [off] {sym} ptr val mem) |
| (MOVSSstore [off] {sym} ptr (MOVLi2f val) mem) -> (MOVLstore [off] {sym} ptr val mem) |
| |
| // Load args directly into the register class where it will be used. |
| // We do this by just modifying the type of the Arg. |
| (MOVQf2i <t> (Arg <u> [off] {sym})) && t.Size() == u.Size() -> @b.Func.Entry (Arg <t> [off] {sym}) |
| (MOVLf2i <t> (Arg <u> [off] {sym})) && t.Size() == u.Size() -> @b.Func.Entry (Arg <t> [off] {sym}) |
| (MOVQi2f <t> (Arg <u> [off] {sym})) && t.Size() == u.Size() -> @b.Func.Entry (Arg <t> [off] {sym}) |
| (MOVLi2f <t> (Arg <u> [off] {sym})) && t.Size() == u.Size() -> @b.Func.Entry (Arg <t> [off] {sym}) |
| |
| // LEAQ is rematerializeable, so this helps to avoid register spill. |
| // See issue 22947 for details |
| (ADD(Q|L)const [off] x:(SP)) -> (LEA(Q|L) [off] x) |
| |
| // HMULx is commutative, but its first argument must go in AX. |
| // If possible, put a rematerializeable value in the first argument slot, |
| // to reduce the odds that another value will be have to spilled |
| // specifically to free up AX. |
| (HMUL(Q|L) x y) && !x.rematerializeable() && y.rematerializeable() -> (HMUL(Q|L) y x) |
| (HMUL(Q|L)U x y) && !x.rematerializeable() && y.rematerializeable() -> (HMUL(Q|L)U y x) |
| |
| // Fold loads into compares |
| // Note: these may be undone by the flagalloc pass. |
| (CMP(Q|L|W|B) l:(MOV(Q|L|W|B)load {sym} [off] ptr mem) x) && canMergeLoad(v, l) && clobber(l) -> (CMP(Q|L|W|B)load {sym} [off] ptr x mem) |
| (CMP(Q|L|W|B) x l:(MOV(Q|L|W|B)load {sym} [off] ptr mem)) && canMergeLoad(v, l) && clobber(l) -> (InvertFlags (CMP(Q|L|W|B)load {sym} [off] ptr x mem)) |
| |
| (CMP(Q|L|W|B)const l:(MOV(Q|L|W|B)load {sym} [off] ptr mem) [c]) |
| && l.Uses == 1 |
| && validValAndOff(c, off) |
| && clobber(l) -> |
| @l.Block (CMP(Q|L|W|B)constload {sym} [makeValAndOff(c,off)] ptr mem) |
| |
| (CMPQload {sym} [off] ptr (MOVQconst [c]) mem) && validValAndOff(c,off) -> (CMPQconstload {sym} [makeValAndOff(c,off)] ptr mem) |
| (CMPLload {sym} [off] ptr (MOVLconst [c]) mem) && validValAndOff(c,off) -> (CMPLconstload {sym} [makeValAndOff(c,off)] ptr mem) |
| (CMPWload {sym} [off] ptr (MOVLconst [c]) mem) && validValAndOff(int64(int16(c)),off) -> (CMPWconstload {sym} [makeValAndOff(int64(int16(c)),off)] ptr mem) |
| (CMPBload {sym} [off] ptr (MOVLconst [c]) mem) && validValAndOff(int64(int8(c)),off) -> (CMPBconstload {sym} [makeValAndOff(int64(int8(c)),off)] ptr mem) |
| |
| (TEST(Q|L|W|B) l:(MOV(Q|L|W|B)load {sym} [off] ptr mem) l2) |
| && l == l2 |
| && l.Uses == 2 |
| && validValAndOff(0,off) |
| && clobber(l) -> |
| @l.Block (CMP(Q|L|W|B)constload {sym} [makeValAndOff(0,off)] ptr mem) |
| |
| (MOVBload [off] {sym} (SB) _) && symIsRO(sym) -> (MOVLconst [int64(read8(sym, off))]) |
| (MOVWload [off] {sym} (SB) _) && symIsRO(sym) -> (MOVLconst [int64(read16(sym, off, config.BigEndian))]) |
| (MOVLload [off] {sym} (SB) _) && symIsRO(sym) -> (MOVQconst [int64(read32(sym, off, config.BigEndian))]) |
| (MOVQload [off] {sym} (SB) _) && symIsRO(sym) -> (MOVQconst [int64(read64(sym, off, config.BigEndian))]) |