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-rw-r--r--pkg/safecopy/memcpy_amd64.s111
1 files changed, 40 insertions, 71 deletions
diff --git a/pkg/safecopy/memcpy_amd64.s b/pkg/safecopy/memcpy_amd64.s
index 129691d68..00b46c18f 100644
--- a/pkg/safecopy/memcpy_amd64.s
+++ b/pkg/safecopy/memcpy_amd64.s
@@ -55,15 +55,9 @@ TEXT ·memcpy(SB), NOSPLIT, $0-36
MOVQ from+8(FP), SI
MOVQ n+16(FP), BX
- // REP instructions have a high startup cost, so we handle small sizes
- // with some straightline code. The REP MOVSQ instruction is really fast
- // for large sizes. The cutover is approximately 2K.
tail:
- // move_129through256 or smaller work whether or not the source and the
- // destination memory regions overlap because they load all data into
- // registers before writing it back. move_256through2048 on the other
- // hand can be used only when the memory regions don't overlap or the copy
- // direction is forward.
+ // BSR+branch table make almost all memmove/memclr benchmarks worse. Not
+ // worth doing.
TESTQ BX, BX
JEQ move_0
CMPQ BX, $2
@@ -83,31 +77,45 @@ tail:
JBE move_65through128
CMPQ BX, $256
JBE move_129through256
- // TODO: use branch table and BSR to make this just a single dispatch
-/*
- * forward copy loop
- */
- CMPQ BX, $2048
- JLS move_256through2048
-
- // Check alignment
- MOVL SI, AX
- ORL DI, AX
- TESTL $7, AX
- JEQ fwdBy8
-
- // Do 1 byte at a time
- MOVQ BX, CX
- REP; MOVSB
- RET
-
-fwdBy8:
- // Do 8 bytes at a time
- MOVQ BX, CX
- SHRQ $3, CX
- ANDQ $7, BX
- REP; MOVSQ
+move_257plus:
+ SUBQ $256, BX
+ MOVOU (SI), X0
+ MOVOU X0, (DI)
+ MOVOU 16(SI), X1
+ MOVOU X1, 16(DI)
+ MOVOU 32(SI), X2
+ MOVOU X2, 32(DI)
+ MOVOU 48(SI), X3
+ MOVOU X3, 48(DI)
+ MOVOU 64(SI), X4
+ MOVOU X4, 64(DI)
+ MOVOU 80(SI), X5
+ MOVOU X5, 80(DI)
+ MOVOU 96(SI), X6
+ MOVOU X6, 96(DI)
+ MOVOU 112(SI), X7
+ MOVOU X7, 112(DI)
+ MOVOU 128(SI), X8
+ MOVOU X8, 128(DI)
+ MOVOU 144(SI), X9
+ MOVOU X9, 144(DI)
+ MOVOU 160(SI), X10
+ MOVOU X10, 160(DI)
+ MOVOU 176(SI), X11
+ MOVOU X11, 176(DI)
+ MOVOU 192(SI), X12
+ MOVOU X12, 192(DI)
+ MOVOU 208(SI), X13
+ MOVOU X13, 208(DI)
+ MOVOU 224(SI), X14
+ MOVOU X14, 224(DI)
+ MOVOU 240(SI), X15
+ MOVOU X15, 240(DI)
+ CMPQ BX, $256
+ LEAQ 256(SI), SI
+ LEAQ 256(DI), DI
+ JGE move_257plus
JMP tail
move_1or2:
@@ -209,42 +217,3 @@ move_129through256:
MOVOU -16(SI)(BX*1), X15
MOVOU X15, -16(DI)(BX*1)
RET
-move_256through2048:
- SUBQ $256, BX
- MOVOU (SI), X0
- MOVOU X0, (DI)
- MOVOU 16(SI), X1
- MOVOU X1, 16(DI)
- MOVOU 32(SI), X2
- MOVOU X2, 32(DI)
- MOVOU 48(SI), X3
- MOVOU X3, 48(DI)
- MOVOU 64(SI), X4
- MOVOU X4, 64(DI)
- MOVOU 80(SI), X5
- MOVOU X5, 80(DI)
- MOVOU 96(SI), X6
- MOVOU X6, 96(DI)
- MOVOU 112(SI), X7
- MOVOU X7, 112(DI)
- MOVOU 128(SI), X8
- MOVOU X8, 128(DI)
- MOVOU 144(SI), X9
- MOVOU X9, 144(DI)
- MOVOU 160(SI), X10
- MOVOU X10, 160(DI)
- MOVOU 176(SI), X11
- MOVOU X11, 176(DI)
- MOVOU 192(SI), X12
- MOVOU X12, 192(DI)
- MOVOU 208(SI), X13
- MOVOU X13, 208(DI)
- MOVOU 224(SI), X14
- MOVOU X14, 224(DI)
- MOVOU 240(SI), X15
- MOVOU X15, 240(DI)
- CMPQ BX, $256
- LEAQ 256(SI), SI
- LEAQ 256(DI), DI
- JGE move_256through2048
- JMP tail