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  1.   fe85cb0163a3da789badcf0082ffee7e58fcd59c
  2.   sysdeps
  3.   ia64
  4.   memmove.S
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/* Optimized version of the standard memmove() function.
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   This file is part of the GNU C Library.
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   Copyright (C) 2000-2018 Free Software Foundation, Inc.
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   Contributed by Dan Pop <Dan.Pop@cern.ch>.
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   The GNU C Library is free software; you can redistribute it and/or
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   modify it under the terms of the GNU Lesser General Public
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   License as published by the Free Software Foundation; either
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   version 2.1 of the License, or (at your option) any later version.
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   The GNU C Library is distributed in the hope that it will be useful,
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   but WITHOUT ANY WARRANTY; without even the implied warranty of
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   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
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   Lesser General Public License for more details.
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   You should have received a copy of the GNU Lesser General Public
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   License along with the GNU C Library; if not, see
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   <http://www.gnu.org/licenses/>.  */
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/* Return: dest
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   Inputs:
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        in0:    dest
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        in1:    src
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        in2:    byte count
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   The core of the function is the memcpy implementation used in memcpy.S.
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   When bytes have to be copied backwards, only the easy case, when
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   all arguments are multiples of 8, is optimised.
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   In this form, it assumes little endian mode.  For big endian mode,
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   sh1 must be computed using an extra instruction: sub sh1 = 64, sh1
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   or the UM.be bit should be cleared at the beginning and set at the end.  */
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#include <sysdep.h>
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#undef ret
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#define OP_T_THRES 	16
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#define OPSIZ 		 8
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#define adest		r15
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#define saved_pr	r17
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#define saved_lc	r18
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#define dest		r19
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#define src		r20
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#define len		r21
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#define asrc		r22
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#define tmp2		r23
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#define tmp3		r24
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#define	tmp4		r25
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#define ptable		r26
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#define ploop56		r27
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#define	loopaddr	r28
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#define	sh1		r29
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#define loopcnt		r30
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#define	value		r31
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#ifdef GAS_ALIGN_BREAKS_UNWIND_INFO
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# define ALIGN(n)	{ nop 0 }
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#else
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# define ALIGN(n)	.align n
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#endif
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#define LOOP(shift)							\
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		ALIGN(32);						\
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.loop##shift##:								\
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(p[0])		ld8	r[0] = [asrc], 8 ;	/* w1 */		\
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(p[MEMLAT+1])	st8	[dest] = value, 8 ;				\
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(p[MEMLAT])	shrp	value = r[MEMLAT], r[MEMLAT+1], shift ;		\
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		nop.b	0 ;						\
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		nop.b	0 ;						\
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		br.ctop.sptk .loop##shift ;				\
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		br.cond.sptk .cpyfew ; /* deal with the remaining bytes */
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#define MEMLAT	21
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#define Nrot	(((2*MEMLAT+3) + 7) & ~7)
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ENTRY(memmove)
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	.prologue
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	alloc 	r2 = ar.pfs, 3, Nrot - 3, 0, Nrot
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	.rotr	r[MEMLAT + 2], q[MEMLAT + 1]
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	.rotp	p[MEMLAT + 2]
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	mov	ret0 = in0		// return value = dest
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	.save pr, saved_pr
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	mov	saved_pr = pr		// save the predicate registers
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	.save ar.lc, saved_lc
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        mov 	saved_lc = ar.lc	// save the loop counter
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	.body
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	or	tmp3 = in0, in1 ;;	// tmp3 = dest | src
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	or	tmp3 = tmp3, in2	// tmp3 = dest | src | len
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	mov 	dest = in0		// dest
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	mov 	src = in1		// src
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	mov	len = in2		// len
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	sub	tmp2 = r0, in0		// tmp2 = -dest
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	cmp.eq	p6, p0 = in2, r0	// if (len == 0)
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(p6)	br.cond.spnt .restore_and_exit;;// 	return dest;
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	and	tmp4 = 7, tmp3 		// tmp4 = (dest | src | len) & 7
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	cmp.le	p6, p0 = dest, src	// if dest <= src it's always safe
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(p6)	br.cond.spnt .forward		// to copy forward
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	add	tmp3 = src, len;;
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	cmp.lt	p6, p0 = dest, tmp3	// if dest > src && dest < src + len
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(p6)	br.cond.spnt .backward		// we have to copy backward
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.forward:
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	shr.u	loopcnt = len, 4 ;;	// loopcnt = len / 16
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	cmp.ne	p6, p0 = tmp4, r0	// if ((dest | src | len) & 7 != 0)
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(p6)	br.cond.sptk .next		//	goto next;
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// The optimal case, when dest, src and len are all multiples of 8
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	and	tmp3 = 0xf, len
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	mov	pr.rot = 1 << 16	// set rotating predicates
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	mov	ar.ec = MEMLAT + 1 ;;	// set the epilog counter
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	cmp.ne	p6, p0 = tmp3, r0	// do we have to copy an extra word?
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	adds	loopcnt = -1, loopcnt;;	// --loopcnt
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(p6)	ld8	value = [src], 8;;
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(p6)	st8	[dest] = value, 8	// copy the "odd" word
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	mov	ar.lc = loopcnt 	// set the loop counter
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	cmp.eq	p6, p0 = 8, len
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(p6)	br.cond.spnt .restore_and_exit;;// the one-word special case
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	adds	adest = 8, dest		// set adest one word ahead of dest
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	adds	asrc = 8, src ;;	// set asrc one word ahead of src
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	nop.b	0			// get the "golden" alignment for
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	nop.b	0			// the next loop
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.l0:
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(p[0])		ld8	r[0] = [src], 16
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(p[0])		ld8	q[0] = [asrc], 16
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(p[MEMLAT])	st8	[dest] = r[MEMLAT], 16
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(p[MEMLAT])	st8	[adest] = q[MEMLAT], 16
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		br.ctop.dptk .l0 ;;
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	mov	pr = saved_pr, -1	// restore the predicate registers
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	mov	ar.lc = saved_lc	// restore the loop counter
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	br.ret.sptk.many b0
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.next:
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	cmp.ge	p6, p0 = OP_T_THRES, len	// is len <= OP_T_THRES
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	and	loopcnt = 7, tmp2 		// loopcnt = -dest % 8
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(p6)	br.cond.spnt	.cpyfew			// copy byte by byte
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	;;
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	cmp.eq	p6, p0 = loopcnt, r0
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(p6)	br.cond.sptk	.dest_aligned
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	sub	len = len, loopcnt	// len -= -dest % 8
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	adds	loopcnt = -1, loopcnt	// --loopcnt
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	;;
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	mov	ar.lc = loopcnt
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.l1:					// copy -dest % 8 bytes
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	ld1	value = [src], 1	// value = *src++
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	;;
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	st1	[dest] = value, 1	// *dest++ = value
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	br.cloop.dptk .l1
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.dest_aligned:
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	and	sh1 = 7, src 		// sh1 = src % 8
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	and	tmp2 = -8, len   	// tmp2 = len & -OPSIZ
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	and	asrc = -8, src		// asrc = src & -OPSIZ  -- align src
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	shr.u	loopcnt = len, 3	// loopcnt = len / 8
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	and	len = 7, len;;		// len = len % 8
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	adds	loopcnt = -1, loopcnt	// --loopcnt
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	addl	tmp4 = @ltoff(.table), gp
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	addl	tmp3 = @ltoff(.loop56), gp
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	mov     ar.ec = MEMLAT + 1	// set EC
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	mov     pr.rot = 1 << 16;;	// set rotating predicates
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	mov	ar.lc = loopcnt		// set LC
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	cmp.eq  p6, p0 = sh1, r0 	// is the src aligned?
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(p6)    br.cond.sptk .src_aligned
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	add	src = src, tmp2		// src += len & -OPSIZ
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	shl	sh1 = sh1, 3		// sh1 = 8 * (src % 8)
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	ld8	ploop56 = [tmp3]	// ploop56 = &loop56
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	ld8	ptable = [tmp4];;	// ptable = &table
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	add	tmp3 = ptable, sh1;;	// tmp3 = &table + sh1
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	mov	ar.ec = MEMLAT + 1 + 1 // one more pass needed
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	ld8	tmp4 = [tmp3];;		// tmp4 = loop offset
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	sub	loopaddr = ploop56,tmp4	// loopadd = &loop56 - loop offset
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	ld8	r[1] = [asrc], 8;;	// w0
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	mov	b6 = loopaddr;;
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	br	b6			// jump to the appropriate loop
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	LOOP(8)
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	LOOP(16)
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	LOOP(24)
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	LOOP(32)
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	LOOP(40)
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	LOOP(48)
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	LOOP(56)
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.src_aligned:
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.l3:
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(p[0])		ld8	r[0] = [src], 8
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(p[MEMLAT])	st8	[dest] = r[MEMLAT], 8
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		br.ctop.dptk .l3
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.cpyfew:
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	cmp.eq	p6, p0 = len, r0	// is len == 0 ?
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	adds	len = -1, len		// --len;
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(p6)	br.cond.spnt	.restore_and_exit ;;
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	mov	ar.lc = len
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.l4:
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	ld1	value = [src], 1
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	;;
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	st1	[dest] = value, 1
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	br.cloop.dptk	.l4 ;;
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.restore_and_exit:
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	mov     pr = saved_pr, -1    	// restore the predicate registers
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	mov 	ar.lc = saved_lc	// restore the loop counter
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	br.ret.sptk.many b0
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// In the case of a backward copy, optimise only the case when everything
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// is a multiple of 8, otherwise copy byte by byte.  The backward copy is
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// used only when the blocks are overlapping and dest > src.
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.backward:
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	shr.u	loopcnt = len, 3	// loopcnt = len / 8
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	add	src = src, len		// src points one byte past the end
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	add	dest = dest, len ;; 	// dest points one byte past the end
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	mov	ar.ec = MEMLAT + 1	// set the epilog counter
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	mov	pr.rot = 1 << 16	// set rotating predicates
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	adds	loopcnt = -1, loopcnt	// --loopcnt
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	cmp.ne	p6, p0 = tmp4, r0	// if ((dest | src | len) & 7 != 0)
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(p6)	br.cond.sptk .bytecopy ;;	// copy byte by byte backward
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	adds	src = -8, src		// src points to the last word
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	adds	dest = -8, dest 	// dest points to the last word
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	mov	ar.lc = loopcnt;;	// set the loop counter
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.l5:
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(p[0])		ld8	r[0] = [src], -8
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(p[MEMLAT])	st8	[dest] = r[MEMLAT], -8
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		br.ctop.dptk .l5
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		br.cond.sptk .restore_and_exit
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.bytecopy:
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	adds	src = -1, src		// src points to the last byte
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	adds	dest = -1, dest		// dest points to the last byte
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	adds	loopcnt = -1, len;;	// loopcnt = len - 1
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	mov	ar.lc = loopcnt;;	// set the loop counter
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.l6:
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(p[0])		ld1	r[0] = [src], -1
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(p[MEMLAT])	st1	[dest] = r[MEMLAT], -1
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		br.ctop.dptk .l6
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		br.cond.sptk .restore_and_exit
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END(memmove)
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	.rodata
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	.align 8
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.table:
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	data8	0			// dummy entry
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	data8 	.loop56 - .loop8
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	data8 	.loop56 - .loop16
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	data8 	.loop56 - .loop24
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	data8	.loop56 - .loop32
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	data8	.loop56 - .loop40
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	data8	.loop56 - .loop48
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	data8	.loop56 - .loop56
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libc_hidden_builtin_def (memmove)

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