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Kirill Smelkov authored
... and same for stores. This does for binary.BigEndian.Uint16() what was already done for Uint32 and Uint64 with BSWAP in 10f75748 (CL 32222). Here is how generated code changes e.g. for the following function (omitting saying the same prologue/epilogue): func get16(b [2]byte) uint16 { return binary.BigEndian.Uint16(b[:]) } "".get16 t=1 size=21 args=0x10 locals=0x0 // before 0x0000 00000 (x.go:15) MOVBLZX "".b+9(FP), AX 0x0005 00005 (x.go:15) MOVBLZX "".b+8(FP), CX 0x000a 00010 (x.go:15) SHLL $8, CX 0x000d 00013 (x.go:15) ORL CX, AX // after 0x0000 00000 (x.go:15) MOVWLZX "".b+8(FP), AX 0x0005 00005 (x.go:15) ROLW $8, AX encoding/binary is speedup overall a bit: name old time/op new time/op delta ReadSlice1000Int32s-4 4.83µs ± 0% 4.83µs ± 0% ~ (p=0.206 n=4+5) ReadStruct-4 1.29µs ± 2% 1.28µs ± 1% -1.27% (p=0.032 n=4+5) ReadInts-4 384ns ± 1% 385ns ± 1% ~ (p=0.968 n=4+5) WriteInts-4 534ns ± 3% 526ns ± 0% -1.54% (p=0.048 n=4+5) WriteSlice1000Int32s-4 5.02µs ± 0% 5.11µs ± 3% ~ (p=0.175 n=4+5) PutUint16-4 0.59ns ± 0% 0.49ns ± 2% -16.95% (p=0.016 n=4+5) PutUint32-4 0.52ns ± 0% 0.52ns ± 0% ~ (all equal) PutUint64-4 0.53ns ± 0% 0.53ns ± 0% ~ (all equal) PutUvarint32-4 19.9ns ± 0% 19.9ns ± 1% ~ (p=0.556 n=4+5) PutUvarint64-4 54.5ns ± 1% 54.2ns ± 0% ~ (p=0.333 n=4+5) name old speed new speed delta ReadSlice1000Int32s-4 829MB/s ± 0% 828MB/s ± 0% ~ (p=0.190 n=4+5) ReadStruct-4 58.0MB/s ± 2% 58.7MB/s ± 1% +1.30% (p=0.032 n=4+5) ReadInts-4 78.0MB/s ± 1% 77.8MB/s ± 1% ~ (p=0.968 n=4+5) WriteInts-4 56.1MB/s ± 3% 57.0MB/s ± 0% ~ (p=0.063 n=4+5) WriteSlice1000Int32s-4 797MB/s ± 0% 783MB/s ± 3% ~ (p=0.190 n=4+5) PutUint16-4 3.37GB/s ± 0% 4.07GB/s ± 2% +20.83% (p=0.016 n=4+5) PutUint32-4 7.73GB/s ± 0% 7.72GB/s ± 0% ~ (p=0.556 n=4+5) PutUint64-4 15.1GB/s ± 0% 15.1GB/s ± 0% ~ (p=0.905 n=4+5) PutUvarint32-4 201MB/s ± 0% 201MB/s ± 0% ~ (p=0.905 n=4+5) PutUvarint64-4 147MB/s ± 1% 147MB/s ± 0% ~ (p=0.286 n=4+5) ( "a bit" only because most of the time is spent in reflection-like things there, not actual bytes decoding. Even for direct PutUint16 benchmark the looping adds overhead and lowers visible benefit. For code-generated encoders / decoders actual effect is more than 20% ) Adding Uint32 and Uint64 raw benchmarks too for completeness. NOTE I had to adjust load-combining rule for bswap case to match first 2 bytes loads as result of "2-bytes load+shift" -> "loadw + rorw 8" rewrite. Reason is: for loads+shift, even e.g. into uint16 var var b []byte var v uin16 v = uint16(b[1]) | uint16(b[0])<<8 the compiler eventually generates L(ong) shift - SHLLconst [8], probably because it is more straightforward / other reasons to work on the whole register. This way 2 bytes rewriting rule is using SHLLconst (not SHLWconst) in its pattern, and then it always gets matched first, even if 2-byte rule comes syntactically after 4-byte rule in AMD64.rules because 4-bytes rule seemingly needs more applyRewrite() cycles to trigger. If 2-bytes rule gets matched for inner half of var b []byte var v uin32 v = uint32(b[3]) | uint32(b[2])<<8 | uint32(b[1])<<16 | uint32(b[0])<<24 and we keep 4-byte load rule unchanged, the result will be MOVW + RORW $8 and then series of byte loads and shifts - not one MOVL + BSWAPL. There is no such problem for stores: there compiler, since it probably knows store destination is 2 bytes wide, uses SHRWconst 8 (not SHRLconst 8) and thus 2-byte store rule is not a subset of rule for 4-byte stores. Fixes #17151 (int16 was last missing piece there) Change-Id: Idc03ba965bfce2b94fef456b02ff6742194748f6 Reviewed-on: https://go-review.googlesource.com/34636Reviewed-by:
Ilya Tocar <ilya.tocar@intel.com> Run-TryBot: Ilya Tocar <ilya.tocar@intel.com> TryBot-Result: Gobot Gobot <gobot@golang.org>
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