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// Copyright 2014 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.
#include "textflag.h"
// See memmove Go doc for important implementation constraints.
// func memmove(to, from unsafe.Pointer, n uintptr)
TEXT runtime·memmove(SB), NOSPLIT|NOFRAME, $0-24
MOVD to+0(FP), R3
MOVD from+8(FP), R4
MOVD n+16(FP), R5
CBNZ R5, check
RET
check:
CMP $16, R5
BLE copy16
AND $~31, R5, R7 // R7 is N&~31
SUB R7, R5, R6 // R6 is N&31
CMP R3, R4
BLT backward
// Copying forward proceeds by copying R7/32 quadwords then R6 <= 31 tail bytes.
// R3 and R4 are advanced as we copy.
// (There may be implementations of armv8 where copying by bytes until
// at least one of source or dest is word aligned is a worthwhile
// optimization, but the on the one tested so far (xgene) it did not
// make a significance difference.)
CBZ R7, noforwardlarge // Do we need to do any quadword copying?
ADD R3, R7, R9 // R9 points just past where we copy by word
forwardlargeloop:
// Copy 32 bytes at a time.
LDP.P 32(R4), (R8, R10)
STP.P (R8, R10), 32(R3)
LDP -16(R4), (R11, R12)
STP (R11, R12), -16(R3)
SUB $32, R7, R7
CBNZ R7, forwardlargeloop
noforwardlarge:
CBNZ R6, forwardtail // Do we need to copy any tail bytes?
RET
forwardtail:
// There are R6 <= 31 bytes remaining to copy.
// This is large enough to still contain pointers,
// which must be copied atomically.
// Copy the next 16 bytes, then 8 bytes, then any remaining bytes.
TBZ $4, R6, 3(PC) // write 16 bytes if R6&16 != 0
LDP.P 16(R4), (R8, R10)
STP.P (R8, R10), 16(R3)
TBZ $3, R6, 3(PC) // write 8 bytes if R6&8 != 0
MOVD.P 8(R4), R8
MOVD.P R8, 8(R3)
AND $7, R6
CBNZ R6, 2(PC)
RET
ADD R3, R6, R9 // R9 points just past the destination memory
forwardtailloop:
MOVBU.P 1(R4), R8
MOVBU.P R8, 1(R3)
CMP R3, R9
BNE forwardtailloop
RET
// Small copies: 1..16 bytes.
copy16:
ADD R4, R5, R8 // R8 points just past the last source byte
ADD R3, R5, R9 // R9 points just past the last destination byte
CMP $8, R5
BLT copy7
MOVD (R4), R6
MOVD -8(R8), R7
MOVD R6, (R3)
MOVD R7, -8(R9)
RET
copy7:
TBZ $2, R5, copy3
MOVWU (R4), R6
MOVWU -4(R8), R7
MOVW R6, (R3)
MOVW R7, -4(R9)
RET
copy3:
TBZ $1, R5, copy1
MOVHU (R4), R6
MOVHU -2(R8), R7
MOVH R6, (R3)
MOVH R7, -2(R9)
RET
copy1:
MOVBU (R4), R6
MOVB R6, (R3)
RET
backward:
// Copying backwards first copies R6 <= 31 tail bytes, then R7/32 quadwords.
// R3 and R4 are advanced to the end of the destination/source buffers
// respectively and moved back as we copy.
ADD R4, R5, R4 // R4 points just past the last source byte
ADD R3, R5, R3 // R3 points just past the last destination byte
CBZ R6, nobackwardtail // Do we need to do any byte-by-byte copying?
AND $7, R6, R12
CBZ R12, backwardtaillarge
SUB R12, R3, R9 // R9 points at the lowest destination byte that should be copied by byte.
backwardtailloop:
// Copy sub-pointer-size tail.
MOVBU.W -1(R4), R8
MOVBU.W R8, -1(R3)
CMP R9, R3
BNE backwardtailloop
backwardtaillarge:
// Do 8/16-byte write if possible.
// See comment at forwardtail.
TBZ $3, R6, 3(PC)
MOVD.W -8(R4), R8
MOVD.W R8, -8(R3)
TBZ $4, R6, 3(PC)
LDP.W -16(R4), (R8, R10)
STP.W (R8, R10), -16(R3)
nobackwardtail:
CBNZ R7, backwardlarge // Do we need to do any doubleword-by-doubleword copying?
RET
backwardlarge:
SUB R7, R3, R9 // R9 points at the lowest destination byte
backwardlargeloop:
LDP -16(R4), (R8, R10)
STP (R8, R10), -16(R3)
LDP.W -32(R4), (R11, R12)
STP.W (R11, R12), -32(R3)
CMP R9, R3
BNE backwardlargeloop
RET