google3/third_party/grte/v5_src/glibc-2.27/sysdeps/powerpc/powerpc32/power7/memcpy.S - GRTEv5 - Git at Google

 /* Optimized memcpy implementation for PowerPC32/POWER7.
    Copyright (C) 2010-2018 Free Software Foundation, Inc.
    Contributed by Luis Machado <luisgpm@br.ibm.com>.
    This file is part of the GNU C Library.

    The GNU C Library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Lesser General Public
    License as published by the Free Software Foundation; either
    version 2.1 of the License, or (at your option) any later version.

    The GNU C Library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Lesser General Public License for more details.

    You should have received a copy of the GNU Lesser General Public
    License along with the GNU C Library; if not, see
    <http://www.gnu.org/licenses/>.  */

 #include <sysdep.h>

 /* void * [r3] memcpy (void *dst [r3], void *src [r4], size_t len [r5]);
    Returns 'dst'.  */

 	.machine  power7
 EALIGN (memcpy, 5, 0)
 	CALL_MCOUNT

 	stwu    1,-32(1)
 	cfi_adjust_cfa_offset(32)
 	stw	30,20(1)
 	cfi_offset(30,(20-32))
 	stw	31,24(1)
 	mr      30,3
 	cmplwi  cr1,5,31
 	neg	0,3
 	cfi_offset(31,-8)
 	ble	cr1, L(copy_LT_32)  /* If move < 32 bytes use short move
 				    code.  */

 	andi.   11,3,15	      /* Check alignment of DST.  */
 	clrlwi  10,4,28	      /* Check alignment of SRC.  */
 	cmplw   cr6,10,11     /* SRC and DST alignments match?  */
 	mr	12,4
 	mr	31,5
 	bne	cr6,L(copy_GE_32_unaligned)

 	srwi    9,5,3	      /* Number of full quadwords remaining.  */

 	beq	L(copy_GE_32_aligned_cont)

 	clrlwi  0,0,29
 	mtcrf   0x01,0
 	subf    31,0,5

 	/* Get the SRC aligned to 8 bytes.  */

 1:	bf	31,2f
 	lbz	6,0(12)
 	addi    12,12,1
 	stb	6,0(3)
 	addi    3,3,1
 2:	bf      30,4f
 	lhz     6,0(12)
 	addi    12,12,2
 	sth     6,0(3)
 	addi    3,3,2
 4:	bf      29,0f
 	lwz     6,0(12)
 	addi    12,12,4
 	stw     6,0(3)
 	addi    3,3,4
 0:
 	clrlwi  10,12,29      /* Check alignment of SRC again.  */
 	srwi    9,31,3	      /* Number of full doublewords remaining.  */

 L(copy_GE_32_aligned_cont):

 	clrlwi  11,31,29
 	mtcrf   0x01,9

 	srwi    8,31,5
 	cmplwi  cr1,9,4
 	cmplwi  cr6,11,0
 	mr	11,12

 	/* Copy 1~3 doublewords so the main loop starts
 	at a multiple of 32 bytes.  */

 	bf	30,1f
 	lfd     6,0(12)
 	lfd     7,8(12)
 	addi    11,12,16
 	mtctr   8
 	stfd    6,0(3)
 	stfd    7,8(3)
 	addi    10,3,16
 	bf      31,4f
 	lfd     0,16(12)
 	stfd    0,16(3)
 	blt     cr1,3f
 	addi    11,12,24
 	addi    10,3,24
 	b       4f

 	.align  4
 1:	/* Copy 1 doubleword and set the counter.  */
 	mr	10,3
 	mtctr   8
 	bf      31,4f
 	lfd     6,0(12)
 	addi    11,12,8
 	stfd    6,0(3)
 	addi    10,3,8

 L(aligned_copy):
 	/* Main aligned copy loop. Copies up to 128-bytes at a time. */
 	.align  4
 4:
 	/* check for any 32-byte or 64-byte lumps that are outside of a
 	   nice 128-byte range.  R8 contains the number of 32-byte
 	   lumps, so drop this into the CR, and use the SO/EQ bits to help
 	   handle the 32- or 64- byte lumps.  Then handle the rest with an
 	   unrolled 128-bytes-at-a-time copy loop. */
 	mtocrf	1,8
 	li	6,16	# 16() index
 	li	7,32	# 32() index
 	li	8,48	# 48() index

 L(aligned_32byte):
 	/* if the SO bit (indicating a 32-byte lump) is not set, move along. */
 	bns	cr7,L(aligned_64byte)
 	lxvd2x	6,0,11
 	lxvd2x	7,11,6
 	addi	11,11,32
 	stxvd2x	6,0,10
 	stxvd2x	7,10,6
 	addi	10,10,32

 L(aligned_64byte):
 	/* if the EQ bit (indicating a 64-byte lump) is not set, move along. */
 	bne	cr7,L(aligned_128setup)
 	lxvd2x	6,0,11
 	lxvd2x	7,11,6
 	lxvd2x	8,11,7
 	lxvd2x	9,11,8
 	addi	11,11,64
 	stxvd2x	6,0,10
 	stxvd2x	7,10,6
 	stxvd2x	8,10,7
 	stxvd2x	9,10,8
 	addi	10,10,64

 L(aligned_128setup):
 	/* Set up for the 128-byte at a time copy loop.  */
 	srwi	8,31,7
 	cmpwi	8,0	# Any 4x lumps left?
 	beq	3f	# if not, move along.
 	lxvd2x	6,0,11
 	lxvd2x	7,11,6
 	mtctr	8	# otherwise, load the ctr and begin.
 	li	8,48	# 48() index
 	b	L(aligned_128loop)

 L(aligned_128head):
 	/* for the 2nd + iteration of this loop. */
 	lxvd2x	6,0,11
 	lxvd2x	7,11,6
 L(aligned_128loop):
 	lxvd2x	8,11,7
 	lxvd2x	9,11,8
 	stxvd2x	6,0,10
 	addi	11,11,64
 	stxvd2x	7,10,6
 	stxvd2x	8,10,7
 	stxvd2x	9,10,8
 	lxvd2x	6,0,11
 	lxvd2x	7,11,6
 	addi	10,10,64
 	lxvd2x	8,11,7
 	lxvd2x	9,11,8
 	addi	11,11,64
 	stxvd2x	6,0,10
 	stxvd2x	7,10,6
 	stxvd2x	8,10,7
 	stxvd2x	9,10,8
 	addi	10,10,64
 	bdnz	L(aligned_128head)

 3:
 	/* Check for tail bytes.  */
 	clrrwi  0,31,3
 	mtcrf   0x01,31
 	beq	cr6,0f

 .L9:
 	add	3,3,0
 	add	12,12,0

 	/*  At this point we have a tail of 0-7 bytes and we know that the
 	destination is doubleword-aligned.  */
 4:	/* Copy 4 bytes.  */
 	bf	29,2f

 	lwz     6,0(12)
 	addi    12,12,4
 	stw     6,0(3)
 	addi    3,3,4
 2:	/* Copy 2 bytes.  */
 	bf	30,1f

 	lhz     6,0(12)
 	addi    12,12,2
 	sth     6,0(3)
 	addi    3,3,2
 1:	/* Copy 1 byte.  */
 	bf	31,0f

 	lbz	6,0(12)
 	stb	6,0(3)
 0:	/* Return original DST pointer.  */
 	mr	3,30
 	lwz	30,20(1)
 	lwz     31,24(1)
 	addi    1,1,32
 	blr

 	/* Handle copies of 0~31 bytes.  */
 	.align  4
 L(copy_LT_32):
 	cmplwi  cr6,5,8
 	mr	12,4
 	mtcrf   0x01,5
 	ble	cr6,L(copy_LE_8)

 	/* At least 9 bytes to go.  */
 	neg	8,4
 	clrrwi  11,4,2
 	andi.   0,8,3
 	cmplwi  cr1,5,16
 	mr	10,5
 	beq	L(copy_LT_32_aligned)

 	/* Force 4-bytes alignment for SRC.  */
 	mtocrf  0x01,0
 	subf    10,0,5
 2:	bf	30,1f

 	lhz	6,0(12)
 	addi    12,12,2
 	sth	6,0(3)
 	addi    3,3,2
 1:	bf	31,L(end_4bytes_alignment)

 	lbz	6,0(12)
 	addi    12,12,1
 	stb	6,0(3)
 	addi    3,3,1

 	.align  4
 L(end_4bytes_alignment):
 	cmplwi  cr1,10,16
 	mtcrf   0x01,10

 L(copy_LT_32_aligned):
 	/* At least 6 bytes to go, and SRC is word-aligned.  */
 	blt	cr1,8f

 	/* Copy 16 bytes.  */
 	lwz	6,0(12)
 	lwz     7,4(12)
 	stw     6,0(3)
 	lwz     8,8(12)
 	stw     7,4(3)
 	lwz     6,12(12)
 	addi    12,12,16
 	stw     8,8(3)
 	stw     6,12(3)
 	addi    3,3,16
 8:	/* Copy 8 bytes.  */
 	bf	28,4f

 	lwz     6,0(12)
 	lwz     7,4(12)
 	addi    12,12,8
 	stw     6,0(3)
 	stw     7,4(3)
 	addi    3,3,8
 4:	/* Copy 4 bytes.  */
 	bf	29,2f

 	lwz     6,0(12)
 	addi    12,12,4
 	stw     6,0(3)
 	addi    3,3,4
 2:	/* Copy 2-3 bytes.  */
 	bf	30,1f

 	lhz     6,0(12)
 	sth     6,0(3)
 	bf      31,0f
 	lbz     7,2(12)
 	stb     7,2(3)

 	/* Return original DST pointer.  */
 	mr      3,30
 	lwz     30,20(1)
 	addi    1,1,32
 	blr

 	.align  4
 1:	/* Copy 1 byte.  */
 	bf	31,0f

 	lbz	6,0(12)
 	stb	6,0(3)
 0:	/* Return original DST pointer.  */
 	mr	3,30
 	lwz	30,20(1)
 	addi    1,1,32
 	blr

 	/* Handles copies of 0~8 bytes.  */
 	.align  4
 L(copy_LE_8):
 	bne	cr6,4f

 	/* Though we could've used lfd/stfd here, they are still
 	slow for unaligned cases.  */

 	lwz	6,0(4)
 	lwz     7,4(4)
 	stw     6,0(3)
 	stw     7,4(3)

 	/* Return original DST pointer.  */
 	mr      3,30
 	lwz     30,20(1)
 	addi    1,1,32
 	blr

 	.align  4
 4:	/* Copies 4~7 bytes.  */
 	bf	29,2b

 	lwz	6,0(4)
 	stw     6,0(3)
 	bf      30,5f
 	lhz     7,4(4)
 	sth     7,4(3)
 	bf      31,0f
 	lbz     8,6(4)
 	stb     8,6(3)

 	/* Return original DST pointer.  */
 	mr      3,30
 	lwz     30,20(1)
 	addi    1,1,32
 	blr

 	.align  4
 5:	/* Copy 1 byte.  */
 	bf	31,0f

 	lbz	6,4(4)
 	stb	6,4(3)

 0:	/* Return original DST pointer.  */
 	mr	3,30
 	lwz     30,20(1)
 	addi    1,1,32
 	blr

 	/* Handle copies of 32+ bytes where DST is aligned (to quadword) but
 	SRC is not. Use aligned quadword loads from SRC, shifted to realign
 	the data, allowing for aligned DST stores.  */
 	.align  4
 L(copy_GE_32_unaligned):
 	andi.   11,3,15	      /* Check alignment of DST.  */
 	clrlwi  0,0,28	      /* Number of bytes until the 1st
 			      quadword of DST.  */
 	srwi    9,5,4	      /* Number of full quadwords remaining.  */

 	beq    L(copy_GE_32_unaligned_cont)

 	/* DST is not quadword aligned, get it aligned.  */

 	mtcrf   0x01,0
 	subf    31,0,5

 	/* Vector instructions work best when proper alignment (16-bytes)
 	is present.  Move 0~15 bytes as needed to get DST quadword-aligned.  */
 1:	/* Copy 1 byte.  */
 	bf	31,2f

 	lbz	6,0(12)
 	addi    12,12,1
 	stb	6,0(3)
 	addi    3,3,1
 2:	/* Copy 2 bytes.  */
 	bf	    30,4f

 	lhz     6,0(12)
 	addi    12,12,2
 	sth     6,0(3)
 	addi    3,3,2
 4:	/* Copy 4 bytes.  */
 	bf	29,8f

 	lwz     6,0(12)
 	addi    12,12,4
 	stw     6,0(3)
 	addi    3,3,4
 8:	/* Copy 8 bytes.  */
 	bf	28,0f

 	lfd	6,0(12)
 	addi    12,12,8
 	stfd    6,0(3)
 	addi    3,3,8
 0:
 	clrlwi  10,12,28      /* Check alignment of SRC.  */
 	srwi    9,31,4	      /* Number of full quadwords remaining.  */

 	/* The proper alignment is present, it is OK to copy the bytes now.  */
 L(copy_GE_32_unaligned_cont):

 	/* Setup two indexes to speed up the indexed vector operations.  */
 	clrlwi  11,31,28
 	li      6,16	      /* Index for 16-bytes offsets.  */
 	li	7,32	      /* Index for 32-bytes offsets.  */
 	cmplwi  cr1,11,0
 	srwi    8,31,5	      /* Setup the loop counter.  */
 	mr      10,3
 	mr      11,12
 	mtcrf   0x01,9
 	cmplwi  cr6,9,1
 #ifdef __LITTLE_ENDIAN__
 	lvsr    5,0,12
 #else
 	lvsl    5,0,12
 #endif
 	lvx     3,0,12
 	bf      31,L(setup_unaligned_loop)

 	/* Copy another 16 bytes to align to 32-bytes due to the loop .  */
 	lvx     4,12,6
 #ifdef __LITTLE_ENDIAN__
 	vperm   6,4,3,5
 #else
 	vperm   6,3,4,5
 #endif
 	addi    11,12,16
 	addi    10,3,16
 	stvx    6,0,3
 	vor	3,4,4

 L(setup_unaligned_loop):
 	mtctr   8
 	ble     cr6,L(end_unaligned_loop)

 	/* Copy 32 bytes at a time using vector instructions.  */
 	.align  4
 L(unaligned_loop):

 	/* Note: vr6/vr10 may contain data that was already copied,
 	but in order to get proper alignment, we may have to copy
 	some portions again. This is faster than having unaligned
 	vector instructions though.  */

 	lvx	4,11,6	      /* vr4 = r11+16.  */
 #ifdef __LITTLE_ENDIAN__
 	vperm   6,4,3,5
 #else
 	vperm   6,3,4,5
 #endif
 	lvx	3,11,7	      /* vr3 = r11+32.  */
 #ifdef __LITTLE_ENDIAN__
 	vperm   10,3,4,5
 #else
 	vperm   10,4,3,5
 #endif
 	addi    11,11,32
 	stvx    6,0,10
 	stvx    10,10,6
 	addi    10,10,32

 	bdnz    L(unaligned_loop)

 	.align  4
 L(end_unaligned_loop):

 	/* Check for tail bytes.  */
 	clrrwi  0,31,4
 	mtcrf   0x01,31
 	beq	cr1,0f

 	add	3,3,0
 	add	12,12,0

 	/*  We have 1~15 tail bytes to copy, and DST is quadword aligned.  */
 8:	/* Copy 8 bytes.  */
 	bf	28,4f

 	lwz	6,0(12)
 	lwz	7,4(12)
 	addi    12,12,8
 	stw	6,0(3)
 	stw	7,4(3)
 	addi    3,3,8
 4:	/* Copy 4 bytes.  */
 	bf	29,2f

 	lwz	6,0(12)
 	addi    12,12,4
 	stw	6,0(3)
 	addi    3,3,4
 2:	/* Copy 2~3 bytes.  */
 	bf	30,1f

 	lhz	6,0(12)
 	addi    12,12,2
 	sth	6,0(3)
 	addi    3,3,2
 1:	/* Copy 1 byte.  */
 	bf	31,0f

 	lbz	6,0(12)
 	stb	6,0(3)
 0:	/* Return original DST pointer.  */
 	mr	3,30
 	lwz     30,20(1)
 	lwz	31,24(1)
 	addi    1,1,32
 	blr

 END (memcpy)
 libc_hidden_builtin_def (memcpy)
	/* Optimized memcpy implementation for PowerPC32/POWER7.
	Copyright (C) 2010-2018 Free Software Foundation, Inc.
	Contributed by Luis Machado <luisgpm@br.ibm.com>.
	This file is part of the GNU C Library.

	The GNU C Library is free software; you can redistribute it and/or
	modify it under the terms of the GNU Lesser General Public
	License as published by the Free Software Foundation; either
	version 2.1 of the License, or (at your option) any later version.

	The GNU C Library is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	Lesser General Public License for more details.

	You should have received a copy of the GNU Lesser General Public
	License along with the GNU C Library; if not, see
	<http://www.gnu.org/licenses/>. */

	#include <sysdep.h>

	/* void * [r3] memcpy (void dst [r3], void src [r4], size_t len [r5]);
	Returns 'dst'. */

	.machine power7
	EALIGN (memcpy, 5, 0)
	CALL_MCOUNT

	stwu 1,-32(1)
	cfi_adjust_cfa_offset(32)
	stw 30,20(1)
	cfi_offset(30,(20-32))
	stw 31,24(1)
	mr 30,3
	cmplwi cr1,5,31
	neg 0,3
	cfi_offset(31,-8)
	ble cr1, L(copy_LT_32) /* If move < 32 bytes use short move
	code. */

	andi. 11,3,15 /* Check alignment of DST. */
	clrlwi 10,4,28 /* Check alignment of SRC. */
	cmplw cr6,10,11 /* SRC and DST alignments match? */
	mr 12,4
	mr 31,5
	bne cr6,L(copy_GE_32_unaligned)

	srwi 9,5,3 /* Number of full quadwords remaining. */

	beq L(copy_GE_32_aligned_cont)

	clrlwi 0,0,29
	mtcrf 0x01,0
	subf 31,0,5

	/* Get the SRC aligned to 8 bytes. */

	1: bf 31,2f
	lbz 6,0(12)
	addi 12,12,1
	stb 6,0(3)
	addi 3,3,1
	2: bf 30,4f
	lhz 6,0(12)
	addi 12,12,2
	sth 6,0(3)
	addi 3,3,2
	4: bf 29,0f
	lwz 6,0(12)
	addi 12,12,4
	stw 6,0(3)
	addi 3,3,4
	0:
	clrlwi 10,12,29 /* Check alignment of SRC again. */
	srwi 9,31,3 /* Number of full doublewords remaining. */

	L(copy_GE_32_aligned_cont):

	clrlwi 11,31,29
	mtcrf 0x01,9

	srwi 8,31,5
	cmplwi cr1,9,4
	cmplwi cr6,11,0
	mr 11,12

	/* Copy 1~3 doublewords so the main loop starts
	at a multiple of 32 bytes. */

	bf 30,1f
	lfd 6,0(12)
	lfd 7,8(12)
	addi 11,12,16
	mtctr 8
	stfd 6,0(3)
	stfd 7,8(3)
	addi 10,3,16
	bf 31,4f
	lfd 0,16(12)
	stfd 0,16(3)
	blt cr1,3f
	addi 11,12,24
	addi 10,3,24
	b 4f

	.align 4
	1: /* Copy 1 doubleword and set the counter. */
	mr 10,3
	mtctr 8
	bf 31,4f
	lfd 6,0(12)
	addi 11,12,8
	stfd 6,0(3)
	addi 10,3,8

	L(aligned_copy):
	/* Main aligned copy loop. Copies up to 128-bytes at a time. */
	.align 4
	4:
	/* check for any 32-byte or 64-byte lumps that are outside of a
	nice 128-byte range. R8 contains the number of 32-byte
	lumps, so drop this into the CR, and use the SO/EQ bits to help
	handle the 32- or 64- byte lumps. Then handle the rest with an
	unrolled 128-bytes-at-a-time copy loop. */
	mtocrf 1,8
	li 6,16 # 16() index
	li 7,32 # 32() index
	li 8,48 # 48() index

	L(aligned_32byte):
	/* if the SO bit (indicating a 32-byte lump) is not set, move along. */
	bns cr7,L(aligned_64byte)
	lxvd2x 6,0,11
	lxvd2x 7,11,6
	addi 11,11,32
	stxvd2x 6,0,10
	stxvd2x 7,10,6
	addi 10,10,32

	L(aligned_64byte):
	/* if the EQ bit (indicating a 64-byte lump) is not set, move along. */
	bne cr7,L(aligned_128setup)
	lxvd2x 6,0,11
	lxvd2x 7,11,6
	lxvd2x 8,11,7
	lxvd2x 9,11,8
	addi 11,11,64
	stxvd2x 6,0,10
	stxvd2x 7,10,6
	stxvd2x 8,10,7
	stxvd2x 9,10,8
	addi 10,10,64

	L(aligned_128setup):
	/* Set up for the 128-byte at a time copy loop. */
	srwi 8,31,7
	cmpwi 8,0 # Any 4x lumps left?
	beq 3f # if not, move along.
	lxvd2x 6,0,11
	lxvd2x 7,11,6
	mtctr 8 # otherwise, load the ctr and begin.
	li 8,48 # 48() index
	b L(aligned_128loop)

	L(aligned_128head):
	/* for the 2nd + iteration of this loop. */
	lxvd2x 6,0,11
	lxvd2x 7,11,6
	L(aligned_128loop):
	lxvd2x 8,11,7
	lxvd2x 9,11,8
	stxvd2x 6,0,10
	addi 11,11,64
	stxvd2x 7,10,6
	stxvd2x 8,10,7
	stxvd2x 9,10,8
	lxvd2x 6,0,11
	lxvd2x 7,11,6
	addi 10,10,64
	lxvd2x 8,11,7
	lxvd2x 9,11,8
	addi 11,11,64
	stxvd2x 6,0,10
	stxvd2x 7,10,6
	stxvd2x 8,10,7
	stxvd2x 9,10,8
	addi 10,10,64
	bdnz L(aligned_128head)

	3:
	/* Check for tail bytes. */
	clrrwi 0,31,3
	mtcrf 0x01,31
	beq cr6,0f

	.L9:
	add 3,3,0
	add 12,12,0

	/* At this point we have a tail of 0-7 bytes and we know that the
	destination is doubleword-aligned. */
	4: /* Copy 4 bytes. */
	bf 29,2f

	lwz 6,0(12)
	addi 12,12,4
	stw 6,0(3)
	addi 3,3,4
	2: /* Copy 2 bytes. */
	bf 30,1f

	lhz 6,0(12)
	addi 12,12,2
	sth 6,0(3)
	addi 3,3,2
	1: /* Copy 1 byte. */
	bf 31,0f

	lbz 6,0(12)
	stb 6,0(3)
	0: /* Return original DST pointer. */
	mr 3,30
	lwz 30,20(1)
	lwz 31,24(1)
	addi 1,1,32
	blr

	/* Handle copies of 0~31 bytes. */
	.align 4
	L(copy_LT_32):
	cmplwi cr6,5,8
	mr 12,4
	mtcrf 0x01,5
	ble cr6,L(copy_LE_8)

	/* At least 9 bytes to go. */
	neg 8,4
	clrrwi 11,4,2
	andi. 0,8,3
	cmplwi cr1,5,16
	mr 10,5
	beq L(copy_LT_32_aligned)

	/* Force 4-bytes alignment for SRC. */
	mtocrf 0x01,0
	subf 10,0,5
	2: bf 30,1f

	lhz 6,0(12)
	addi 12,12,2
	sth 6,0(3)
	addi 3,3,2
	1: bf 31,L(end_4bytes_alignment)

	lbz 6,0(12)
	addi 12,12,1
	stb 6,0(3)
	addi 3,3,1

	.align 4
	L(end_4bytes_alignment):
	cmplwi cr1,10,16
	mtcrf 0x01,10

	L(copy_LT_32_aligned):
	/* At least 6 bytes to go, and SRC is word-aligned. */
	blt cr1,8f

	/* Copy 16 bytes. */
	lwz 6,0(12)
	lwz 7,4(12)
	stw 6,0(3)
	lwz 8,8(12)
	stw 7,4(3)
	lwz 6,12(12)
	addi 12,12,16
	stw 8,8(3)
	stw 6,12(3)
	addi 3,3,16
	8: /* Copy 8 bytes. */
	bf 28,4f

	lwz 6,0(12)
	lwz 7,4(12)
	addi 12,12,8
	stw 6,0(3)
	stw 7,4(3)
	addi 3,3,8
	4: /* Copy 4 bytes. */
	bf 29,2f

	lwz 6,0(12)
	addi 12,12,4
	stw 6,0(3)
	addi 3,3,4
	2: /* Copy 2-3 bytes. */
	bf 30,1f

	lhz 6,0(12)
	sth 6,0(3)
	bf 31,0f
	lbz 7,2(12)
	stb 7,2(3)

	/* Return original DST pointer. */
	mr 3,30
	lwz 30,20(1)
	addi 1,1,32
	blr

	.align 4
	1: /* Copy 1 byte. */
	bf 31,0f

	lbz 6,0(12)
	stb 6,0(3)
	0: /* Return original DST pointer. */
	mr 3,30
	lwz 30,20(1)
	addi 1,1,32
	blr

	/* Handles copies of 0~8 bytes. */
	.align 4
	L(copy_LE_8):
	bne cr6,4f

	/* Though we could've used lfd/stfd here, they are still
	slow for unaligned cases. */

	lwz 6,0(4)
	lwz 7,4(4)
	stw 6,0(3)
	stw 7,4(3)

	/* Return original DST pointer. */
	mr 3,30
	lwz 30,20(1)
	addi 1,1,32
	blr

	.align 4
	4: /* Copies 4~7 bytes. */
	bf 29,2b

	lwz 6,0(4)
	stw 6,0(3)
	bf 30,5f
	lhz 7,4(4)
	sth 7,4(3)
	bf 31,0f
	lbz 8,6(4)
	stb 8,6(3)

	/* Return original DST pointer. */
	mr 3,30
	lwz 30,20(1)
	addi 1,1,32
	blr

	.align 4
	5: /* Copy 1 byte. */
	bf 31,0f

	lbz 6,4(4)
	stb 6,4(3)

	0: /* Return original DST pointer. */
	mr 3,30
	lwz 30,20(1)
	addi 1,1,32
	blr

	/* Handle copies of 32+ bytes where DST is aligned (to quadword) but
	SRC is not. Use aligned quadword loads from SRC, shifted to realign
	the data, allowing for aligned DST stores. */
	.align 4
	L(copy_GE_32_unaligned):
	andi. 11,3,15 /* Check alignment of DST. */
	clrlwi 0,0,28 /* Number of bytes until the 1st
	quadword of DST. */
	srwi 9,5,4 /* Number of full quadwords remaining. */

	beq L(copy_GE_32_unaligned_cont)

	/* DST is not quadword aligned, get it aligned. */

	mtcrf 0x01,0
	subf 31,0,5

	/* Vector instructions work best when proper alignment (16-bytes)
	is present. Move 0~15 bytes as needed to get DST quadword-aligned. */
	1: /* Copy 1 byte. */
	bf 31,2f

	lbz 6,0(12)
	addi 12,12,1
	stb 6,0(3)
	addi 3,3,1
	2: /* Copy 2 bytes. */
	bf 30,4f

	lhz 6,0(12)
	addi 12,12,2
	sth 6,0(3)
	addi 3,3,2
	4: /* Copy 4 bytes. */
	bf 29,8f

	lwz 6,0(12)
	addi 12,12,4
	stw 6,0(3)
	addi 3,3,4
	8: /* Copy 8 bytes. */
	bf 28,0f

	lfd 6,0(12)
	addi 12,12,8
	stfd 6,0(3)
	addi 3,3,8
	0:
	clrlwi 10,12,28 /* Check alignment of SRC. */
	srwi 9,31,4 /* Number of full quadwords remaining. */

	/* The proper alignment is present, it is OK to copy the bytes now. */
	L(copy_GE_32_unaligned_cont):

	/* Setup two indexes to speed up the indexed vector operations. */
	clrlwi 11,31,28
	li 6,16 /* Index for 16-bytes offsets. */
	li 7,32 /* Index for 32-bytes offsets. */
	cmplwi cr1,11,0
	srwi 8,31,5 /* Setup the loop counter. */
	mr 10,3
	mr 11,12
	mtcrf 0x01,9
	cmplwi cr6,9,1
	#ifdef __LITTLE_ENDIAN__
	lvsr 5,0,12
	#else
	lvsl 5,0,12
	#endif
	lvx 3,0,12
	bf 31,L(setup_unaligned_loop)

	/* Copy another 16 bytes to align to 32-bytes due to the loop . */
	lvx 4,12,6
	#ifdef __LITTLE_ENDIAN__
	vperm 6,4,3,5
	#else
	vperm 6,3,4,5
	#endif
	addi 11,12,16
	addi 10,3,16
	stvx 6,0,3
	vor 3,4,4

	L(setup_unaligned_loop):
	mtctr 8
	ble cr6,L(end_unaligned_loop)

	/* Copy 32 bytes at a time using vector instructions. */
	.align 4
	L(unaligned_loop):

	/* Note: vr6/vr10 may contain data that was already copied,
	but in order to get proper alignment, we may have to copy
	some portions again. This is faster than having unaligned
	vector instructions though. */

	lvx 4,11,6 /* vr4 = r11+16. */
	#ifdef __LITTLE_ENDIAN__
	vperm 6,4,3,5
	#else
	vperm 6,3,4,5
	#endif
	lvx 3,11,7 /* vr3 = r11+32. */
	#ifdef __LITTLE_ENDIAN__
	vperm 10,3,4,5
	#else
	vperm 10,4,3,5
	#endif
	addi 11,11,32
	stvx 6,0,10
	stvx 10,10,6
	addi 10,10,32

	bdnz L(unaligned_loop)

	.align 4
	L(end_unaligned_loop):

	/* Check for tail bytes. */
	clrrwi 0,31,4
	mtcrf 0x01,31
	beq cr1,0f

	add 3,3,0
	add 12,12,0

	/* We have 1~15 tail bytes to copy, and DST is quadword aligned. */
	8: /* Copy 8 bytes. */
	bf 28,4f

	lwz 6,0(12)
	lwz 7,4(12)
	addi 12,12,8
	stw 6,0(3)
	stw 7,4(3)
	addi 3,3,8
	4: /* Copy 4 bytes. */
	bf 29,2f

	lwz 6,0(12)
	addi 12,12,4
	stw 6,0(3)
	addi 3,3,4
	2: /* Copy 2~3 bytes. */
	bf 30,1f

	lhz 6,0(12)
	addi 12,12,2
	sth 6,0(3)
	addi 3,3,2
	1: /* Copy 1 byte. */
	bf 31,0f

	lbz 6,0(12)
	stb 6,0(3)
	0: /* Return original DST pointer. */
	mr 3,30
	lwz 30,20(1)
	lwz 31,24(1)
	addi 1,1,32
	blr

	END (memcpy)
	libc_hidden_builtin_def (memcpy)