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- /* Copyright (C) 2002, 2003 Free Software Foundation, Inc.
- This file is part of the GNU C Library.
- Contributed by Hartvig Ekner <hartvige@mips.com>, 2002.
- 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 <features.h>
- #include <sysdep.h>
- #include <endian.h>
- /* void *memcpy(void *s1, const void *s2, size_t n); */
- #ifdef __mips64
- #include <sys/asm.h>
- #if __BYTE_ORDER == __BIG_ENDIAN
- # define LDHI ldl /* high part is left in big-endian */
- # define SDHI sdl /* high part is left in big-endian */
- # define LDLO ldr /* low part is right in big-endian */
- # define SDLO sdr /* low part is right in big-endian */
- #else
- # define LDHI ldr /* high part is right in little-endian */
- # define SDHI sdr /* high part is right in little-endian */
- # define LDLO ldl /* low part is left in little-endian */
- # define SDLO sdl /* low part is left in little-endian */
- #endif
- ENTRY (memcpy)
- .set noreorder
- slti t0, a2, 16 # Less than 16?
- bne t0, zero, L(last16)
- move v0, a0 # Setup exit value before too late
- xor t0, a1, a0 # Find a0/a1 displacement
- andi t0, 0x7
- bne t0, zero, L(shift) # Go handle the unaligned case
- PTR_SUBU t1, zero, a1
- andi t1, 0x7 # a0/a1 are aligned, but are we
- beq t1, zero, L(chk8w) # starting in the middle of a word?
- PTR_SUBU a2, t1
- LDHI t0, 0(a1) # Yes we are... take care of that
- PTR_ADDU a1, t1
- SDHI t0, 0(a0)
- PTR_ADDU a0, t1
- L(chk8w):
- andi t0, a2, 0x3f # 64 or more bytes left?
- beq t0, a2, L(chk1w)
- PTR_SUBU a3, a2, t0 # Yes
- PTR_ADDU a3, a1 # a3 = end address of loop
- move a2, t0 # a2 = what will be left after loop
- L(lop8w):
- ld t0, 0(a1) # Loop taking 8 words at a time
- ld t1, 8(a1)
- ld t2, 16(a1)
- ld t3, 24(a1)
- ld ta0, 32(a1)
- ld ta1, 40(a1)
- ld ta2, 48(a1)
- ld ta3, 56(a1)
- PTR_ADDIU a0, 64
- PTR_ADDIU a1, 64
- sd t0, -64(a0)
- sd t1, -56(a0)
- sd t2, -48(a0)
- sd t3, -40(a0)
- sd ta0, -32(a0)
- sd ta1, -24(a0)
- sd ta2, -16(a0)
- bne a1, a3, L(lop8w)
- sd ta3, -8(a0)
- L(chk1w):
- andi t0, a2, 0x7 # 8 or more bytes left?
- beq t0, a2, L(last16)
- PTR_SUBU a3, a2, t0 # Yes, handle them one dword at a time
- PTR_ADDU a3, a1 # a3 again end address
- move a2, t0
- L(lop1w):
- ld t0, 0(a1)
- PTR_ADDIU a0, 8
- PTR_ADDIU a1, 8
- bne a1, a3, L(lop1w)
- sd t0, -8(a0)
- L(last16):
- blez a2, L(lst16e) # Handle last 16 bytes, one at a time
- PTR_ADDU a3, a2, a1
- L(lst16l):
- lb t0, 0(a1)
- PTR_ADDIU a0, 1
- PTR_ADDIU a1, 1
- bne a1, a3, L(lst16l)
- sb t0, -1(a0)
- L(lst16e):
- jr ra # Bye, bye
- nop
- L(shift):
- PTR_SUBU a3, zero, a0 # Src and Dest unaligned
- andi a3, 0x7 # (unoptimized case...)
- beq a3, zero, L(shft1)
- PTR_SUBU a2, a3 # a2 = bytes left
- LDHI t0, 0(a1) # Take care of first odd part
- LDLO t0, 7(a1)
- PTR_ADDU a1, a3
- SDHI t0, 0(a0)
- PTR_ADDU a0, a3
- L(shft1):
- andi t0, a2, 0x7
- PTR_SUBU a3, a2, t0
- PTR_ADDU a3, a1
- L(shfth):
- LDHI t1, 0(a1) # Limp through, dword by dword
- LDLO t1, 7(a1)
- PTR_ADDIU a0, 8
- PTR_ADDIU a1, 8
- bne a1, a3, L(shfth)
- sd t1, -8(a0)
- b L(last16) # Handle anything which may be left
- move a2, t0
- .set reorder
- END (memcpy)
- #else /* !__mips64 */
- #if __BYTE_ORDER == __BIG_ENDIAN
- # define LWHI lwl /* high part is left in big-endian */
- # define SWHI swl /* high part is left in big-endian */
- # define LWLO lwr /* low part is right in big-endian */
- # define SWLO swr /* low part is right in big-endian */
- #else
- # define LWHI lwr /* high part is right in little-endian */
- # define SWHI swr /* high part is right in little-endian */
- # define LWLO lwl /* low part is left in little-endian */
- # define SWLO swl /* low part is left in little-endian */
- #endif
- ENTRY (memcpy)
- .set noreorder
- slti t0, a2, 8 # Less than 8?
- bne t0, zero, L(last8)
- move v0, a0 # Setup exit value before too late
- xor t0, a1, a0 # Find a0/a1 displacement
- andi t0, 0x3
- bne t0, zero, L(shift) # Go handle the unaligned case
- subu t1, zero, a1
- andi t1, 0x3 # a0/a1 are aligned, but are we
- beq t1, zero, L(chk8w) # starting in the middle of a word?
- subu a2, t1
- LWHI t0, 0(a1) # Yes we are... take care of that
- addu a1, t1
- SWHI t0, 0(a0)
- addu a0, t1
- L(chk8w):
- andi t0, a2, 0x1f # 32 or more bytes left?
- beq t0, a2, L(chk1w)
- subu a3, a2, t0 # Yes
- addu a3, a1 # a3 = end address of loop
- move a2, t0 # a2 = what will be left after loop
- L(lop8w):
- lw t0, 0(a1) # Loop taking 8 words at a time
- lw t1, 4(a1)
- lw t2, 8(a1)
- lw t3, 12(a1)
- lw t4, 16(a1)
- lw t5, 20(a1)
- lw t6, 24(a1)
- lw t7, 28(a1)
- addiu a0, 32
- addiu a1, 32
- sw t0, -32(a0)
- sw t1, -28(a0)
- sw t2, -24(a0)
- sw t3, -20(a0)
- sw t4, -16(a0)
- sw t5, -12(a0)
- sw t6, -8(a0)
- bne a1, a3, L(lop8w)
- sw t7, -4(a0)
- L(chk1w):
- andi t0, a2, 0x3 # 4 or more bytes left?
- beq t0, a2, L(last8)
- subu a3, a2, t0 # Yes, handle them one word at a time
- addu a3, a1 # a3 again end address
- move a2, t0
- L(lop1w):
- lw t0, 0(a1)
- addiu a0, 4
- addiu a1, 4
- bne a1, a3, L(lop1w)
- sw t0, -4(a0)
- L(last8):
- blez a2, L(lst8e) # Handle last 8 bytes, one at a time
- addu a3, a2, a1
- L(lst8l):
- lb t0, 0(a1)
- addiu a0, 1
- addiu a1, 1
- bne a1, a3, L(lst8l)
- sb t0, -1(a0)
- L(lst8e):
- jr ra # Bye, bye
- nop
- L(shift):
- subu a3, zero, a0 # Src and Dest unaligned
- andi a3, 0x3 # (unoptimized case...)
- beq a3, zero, L(shft1)
- subu a2, a3 # a2 = bytes left
- LWHI t0, 0(a1) # Take care of first odd part
- LWLO t0, 3(a1)
- addu a1, a3
- SWHI t0, 0(a0)
- addu a0, a3
- L(shft1):
- andi t0, a2, 0x3
- subu a3, a2, t0
- addu a3, a1
- L(shfth):
- LWHI t1, 0(a1) # Limp through, word by word
- LWLO t1, 3(a1)
- addiu a0, 4
- addiu a1, 4
- bne a1, a3, L(shfth)
- sw t1, -4(a0)
- b L(last8) # Handle anything which may be left
- move a2, t0
- .set reorder
- END (memcpy)
- #endif /* !__mips64 */
- libc_hidden_def(memcpy)
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