rockbox/firmware/common/memset_a.S

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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2004 by Jens Arnold
*
* All files in this archive are subject to the GNU General Public License.
* See the file COPYING in the source tree root for full license agreement.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include "config.h"
.section .icode,"ax",@progbits
.align 2
#if CONFIG_CPU == SH7034
.global _memset
.type _memset,@function
/* Fills a memory region with specified byte value
* This version is optimized for speed
*
* arguments:
* r4 - start address
* r5 - data
* r6 - length
*
* return value:
* r0 - start address (like ANSI version)
*
* register usage:
* r0 - temporary
* r1 - start address +11 for main loop
* r4 - start address
* r5 - data (spread to all 4 bytes when using long stores)
* r6 - current address (runs down from end to start)
*
* The instruction order below is devised in a way to utilize the pipelining
* of the SH1 to the max. The routine fills memory from end to start in
* order to utilize the auto-decrementing store instructions.
*/
_memset:
neg r4,r0
and #3,r0 /* r0 = (4 - align_offset) % 4 */
add #4,r0
cmp/hs r0,r6 /* at least one aligned longword to fill? */
add r4,r6 /* r6 = end_address */
bf .no_longs /* no, jump directly to byte loop */
extu.b r5,r5 /* start: spread data to all 4 bytes */
swap.b r5,r0
or r0,r5 /* data now in 2 lower bytes of r5 */
swap.w r5,r0
or r0,r5 /* data now in all 4 bytes of r5 */
mov r6,r0
tst #3,r0 /* r0 already long aligned? */
bt .end_b1 /* yes: skip loop */
/* leading byte loop: sets 0..3 bytes */
.loop_b1:
mov.b r5,@-r0 /* store byte */
tst #3,r0 /* r0 long aligned? */
bf .loop_b1 /* runs r0 down until long aligned */
mov r0,r6 /* r6 = last long bound */
nop /* keep alignment */
.end_b1:
mov r4,r1 /* r1 = start_address... */
add #11,r1 /* ... + 11, combined for rounding and offset */
xor r1,r0
tst #4,r0 /* bit 2 tells whether an even or odd number of */
bf .loop_odd /* longwords to set */
/* main loop: set 2 longs per pass */
.loop_2l:
mov.l r5,@-r6 /* store first long */
.loop_odd:
cmp/hi r1,r6 /* runs r6 down to first long bound */
mov.l r5,@-r6 /* store second long */
bt .loop_2l
.no_longs:
cmp/hi r4,r6 /* any bytes left? */
bf .end_b2 /* no: skip loop */
/* trailing byte loop */
.loop_b2:
mov.b r5,@-r6 /* store byte */
cmp/hi r4,r6 /* runs r6 down to the start address */
bt .loop_b2
.end_b2:
rts
mov r4,r0 /* return start address */
.end:
.size _memset,.end-_memset
#elif defined(CPU_COLDFIRE)
.global memset
.type memset,@function
/* Fills a memory region with specified byte value
* This version is optimized for speed
*
* arguments:
* (4,%sp) - start address
* (8,%sp) - data
* (12,%sp) - length
*
* return value:
* %d0 - start address (like ANSI version)
*
* register usage:
* %d0 - data (spread to all 4 bytes when using long stores)
* %d1 - temporary / data (for burst transfer)
* %d2 - data (for burst transfer)
* %d3 - data (for burst transfer)
* %a0 - start address
* %a1 - current address (runs down from end to start)
*
* For maximum speed this routine uses both long stores and burst mode,
* storing whole lines with movem.l. The routine fills memory from end
* to start in order to ease returning the start address.
*/
memset:
move.l (4,%sp),%a0 /* start address */
move.l (8,%sp),%d0 /* data */
move.l (12,%sp),%a1 /* length */
add.l %a0,%a1 /* %a1 = end address */
move.l %a0,%d1
addq.l #7,%d1
and.l #0xFFFFFFFC,%d1 /* %d1 = first long bound + 4 */
cmp.l %d1,%a1 /* at least one aligned longword to fill? */
blo.b .no_longs /* no, jump directly to byte loop */
and.l #0xFF,%d0 /* start: spread data to all 4 bytes */
move.l %d0,%d1
lsl.l #8,%d1
or.l %d1,%d0 /* data now in 2 lower bytes of %d0 */
move.l %d0,%d1
swap %d0
or.l %d1,%d0 /* data now in all 4 bytes of %d0 */
move.l %a1,%d1
and.l #0xFFFFFFFC,%d1 /* %d1 = last long bound */
cmp.l %d1,%a1 /* any bytes to set? */
bls.b .end_b1 /* no: skip byte loop */
/* leading byte loop: sets 0..3 bytes */
.loop_b1:
move.b %d0,-(%a1) /* store byte */
cmp.l %d1,%a1 /* runs %a1 down to last long bound */
bhi.b .loop_b1
.end_b1:
moveq.l #31,%d1
add.l %a0,%d1
and.l #0xFFFFFFF0,%d1 /* %d1 = first line bound + 16 */
cmp.l %d1,%a1 /* at least one full line to fill? */
blo.b .no_lines /* no, jump to longword loop */
mov.l %a1,%d1
and.l #0xFFFFFFF0,%d1 /* %d1 = last line bound */
cmp.l %d1,%a1 /* any longwords to set? */
bls.b .end_l1 /* no: skip longword loop */
/* leading longword loop: sets 0..3 longwords */
.loop_l1:
move.l %d0,-(%a1) /* store longword */
cmp.l %d1,%a1 /* runs %a1 down to last line bound */
bhi.b .loop_l1
.end_l1:
move.l %d2,-(%sp) /* free some registers */
move.l %d3,-(%sp)
move.l %d0,%d1 /* spread data to 4 data registers */
move.l %d0,%d2
move.l %d0,%d3
lea.l (15,%a0),%a0 /* start address += 15, acct. for trl. data */
/* main loop: set whole lines utilising burst mode */
.loop_line:
lea.l (-16,%a1),%a1 /* pre-decrement */
movem.l %d0-%d3,(%a1) /* store line */
cmp.l %a0,%a1 /* runs %a1 down to first line bound */
bhi.b .loop_line
lea.l (-15,%a0),%a0 /* correct start address */
move.l (%sp)+,%d3 /* restore registers */
move.l (%sp)+,%d2
move.l %a0,%d1 /* %d1 = start address ... */
addq.l #3,%d1 /* ... +3, account for possible trailing bytes */
cmp.l %d1,%a1 /* any longwords left */
bhi.b .loop_l2 /* yes: jump to longword loop */
bra.b .no_longs /* no: skip loop */
.no_lines:
move.l %a0,%d1 /* %d1 = start address ... */
addq.l #3,%d1 /* ... +3, account for possible trailing bytes */
/* trailing longword loop */
.loop_l2:
move.l %d0,-(%a1) /* store longword */
cmp.l %d1,%a1 /* runs %a1 down to first long bound */
bhi.b .loop_l2
.no_longs:
cmp.l %a0,%a1 /* any bytes left? */
bls.b .end_b2 /* no: skip loop */
/* trailing byte loop */
.loop_b2:
move.b %d0,-(%a1) /* store byte */
cmp.l %a0,%a1 /* runs %a1 down to start address */
bhi.b .loop_b2
.end_b2:
move.l %a0,%d0 /* return start address */
rts
.end:
.size memset,.end-memset
#endif