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[/] [openrisc/] [trunk/] [gnu-stable/] [gcc-4.5.1/] [gcc/] [config/] [score/] [mul-div.S] - Rev 859
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/* Copyright (C) 2005, 2007 Free Software Foundation, Inc.
Contributed by Sunnorth
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3, or (at your
option) any later version.
GCC 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 General Public
License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#define ra r3
#define a0 r4
#define a1 r5
#define a2 r6
#define a3 r7
#define v0 r23
#define t0 r8
#define t1 r9
#define t2 r10
#define t3 r11
#define t4 r22
#ifndef __pic__
#if !defined(L_mulsi3) && !defined(L_divsi3)
.text
.global _flush_cache
#ifdef __score3__
_flush_cache:
br r3
#else
_flush_cache:
srli r9, r5, 4
mv r8, r4
mtsr r9, sr0
1:
cache 0xe, [r8, 0] # write back invalid dcache
addi r8, 16
bcnz 1b
mfcr r8, cr4
bittst! r8, 0x3 # if LDM is enable, write back LDM
beq! 6f
ldi r10, 0
cache 0xc, [r10, 0]
6:
bittst! r8, 0x2 # if LIM is enable, refill it
beq! 7f
cache 0x4, [r10, 0]
7:
#nop!
#nop!
#nop!
#nop!
#nop!
mv r8, r4
mtsr r9, sr0
2:
cache 0x2, [r8, 0] # invalid unlock icache
#nop!
#nop!
#nop!
#nop!
#nop!
addi r8, 16
bcnz 2b
br r3
#endif
#endif
/* FUNCTION
(U) INT32 v0 = __mulsi3 ((U) INT32 a0, (U) INT32 a1);
REGISTERS:
use t0
modify a0
a1 -> become 0
NOTE:
this seems to give better performance to just rotate and add. */
#ifdef L_mulsi3
.text
.global __umulsi3
.global __mulsi3
/* signed multiplication (32x32) */
.ent __mulsi3
__umulsi3:
__mulsi3:
li t1, 0
__mulsi3_loop:
andri.c t0, a1, 1 # t0 = multiplier[0]
srli a1, a1, 1 # a1 /= 2
beq __mulsi3_loop2 # skip if (t0 == 0)
add t1, t1, a0 # add multiplicand
__mulsi3_loop2:
slli a0, a0, 1 # multiplicand mul 2
cmpi.c a1, 0
bne __mulsi3_loop
mv r4, t1
br ra
.end __mulsi3
#endif /* L_mulsi3 */
/* FUNCTION
UINT32 (v0) = __udivsi3 (UINT32 (a0), UINT32 (a1));
INT32 (v0) = __divsi3 (INT32 (a0), INT32 (a1));
UINT32 (v0) = __umodsi3 (UINT32 (a0), UINT32 (a1));
INT32 (v0) = __modsi3 (INT32 (a0), INT32 (a1));
DESCRIPTION
performs 32-bit division/modulo.
REGISTERS
used t0 bit-index
t1
modify a0 becomes remainer */
#ifdef L_divsi3
.text
.global __udivsi3
.global __umodsi3
.global __divsi3
.global __modsi3
/* unsigned division */
.ent __udivsi3
__udivsi3:
li t4, 0
cmpi.c a1, 0
beq __uds_exit
li t0, 1
blt __uds_ok
__uds_normalize:
cmp.c a0, a1
bcc __uds_ok
slli a1, a1, 1
slli t0, t0, 1
cmpi.c a1, 0
bge __uds_normalize
__uds_ok:
__uds_loop2:
cmp.c a0, a1
bcc __uds_loop3
sub a0, a0, a1
or t4, t4, t0
__uds_loop3:
srli t0, t0, 1
srli a1, a1, 1
cmpi.c t0, 0
bne __uds_loop2
__uds_exit:
mv a1, a0
mv r4, t4
br ra
.end __udivsi3
/* unsigned modulus */
.ent __umodsi3
__umodsi3:
mv t3, ra
jl __udivsi3
mv r4, a1
br t3
.end __umodsi3
/* abs and div */
.ent __orgsi3
__orgsi3:
cmpi.c a0, 0
bge __orgsi3_a0p
neg a0, a0
__orgsi3_a0p:
cmpi.c a1, 0
bge __udivsi3
neg a1, a1
b __udivsi3 # goto udivsi3
.end __orgsi3
/* signed division */
.ent __divsi3
__divsi3:
mv t3, ra
xor t2, a0, a1
jl __orgsi3
__divsi3_adjust:
cmpi.c t2, 0
bge __divsi3_exit
neg r4, r4
__divsi3_exit:
br t3
.end __divsi3
/* signed modulus */
.ent __modsi3
__modsi3:
mv t3, ra
mv t2, a0
jl __orgsi3
mv r4, a1
b __divsi3_adjust
.end __modsi3
#endif /* L_divsi3 */
#else /* -fPIC */
#if !defined(L_mulsi3) && !defined(L_divsi3)
.set pic
.text
.global _flush_cache
#ifdef __score3__
_flush_cache:
br r3
#else
_flush_cache:
addi r0, -8 # pic used
.cpload r29 # pic used
srli r9, r5, 4
mv r8, r4
mtsr r9, sr0
1:
cache 0xe, [r8, 0] # write back invalid dcache
addi r8, 16
bcnz 1b
mfcr r8, cr4
bittst! r8, 0x3 # if LDM is enable, write back LDM
beq! 6f
ldi r10, 0
cache 0xc, [r10, 0]
6:
bittst! r8, 0x2 # if LIM is enable, refill it
beq! 7f
cache 0x4, [r10, 0]
7:
#nop!
#nop!
#nop!
#nop!
#nop!
mv r8, r4
mtsr r9, sr0
2:
cache 0x2, [r8, 0] # invalid unlock icache
#nop!
#nop!
#nop!
#nop!
#nop!
addi r8, 16
bcnz 2b
.cprestore r0, 12 # pic used
addi r0, 8 # pic used
br r3
#endif
#endif
/* FUNCTION
(U) INT32 v0 = __mulsi3 ((U) INT32 a0, (U) INT32 a1);
REGISTERS:
use t0
modify a0
a1 -> become 0
NOTE:
this seems to give better performance to just rotate and add. */
#ifdef L_mulsi3
.set pic
.text
.global __umulsi3
.global __mulsi3
/* signed multiplication (32x32) */
.ent __mulsi3
__umulsi3:
__mulsi3:
addi r0, -8 # pic used
.cpload r29 # pic used
li t1, 0
__mulsi3_loop:
andri.c t0, a1, 1 # t0 = multiplier[0]
srli a1, a1, 1 # a1 /= 2
beq __mulsi3_loop2 # skip if (t0 == 0)
add t1, t1, a0 # add multiplicand
__mulsi3_loop2:
slli a0, a0, 1 # multiplicand mul 2
cmpi.c a1, 0
bne __mulsi3_loop
mv r4, t1
.cprestore r0, 12 # pic used
addi r0, 8 # pic used
br ra
.end __mulsi3
#endif /* L_mulsi3 */
/* FUNCTION
UINT32 (v0) = __udivsi3 (UINT32 (a0), UINT32 (a1));
INT32 (v0) = __divsi3 (INT32 (a0), INT32 (a1));
UINT32 (v0) = __umodsi3 (UINT32 (a0), UINT32 (a1));
INT32 (v0) = __modsi3 (INT32 (a0), INT32 (a1));
DESCRIPTION
performs 32-bit division/modulo.
REGISTERS
used t0 bit-index
t1
modify a0 becomes remainer */
#ifdef L_divsi3
.set pic
.text
.global __udivsi3
.global __umodsi3
.global __divsi3
.global __modsi3
/* unsigned division */
.ent __udivsi3
__udivsi3:
addi r0, -8 # pic used
.cpload r29 # pic used
li t4, 0
cmpi.c a1, 0
beq __uds_exit
li t0, 1
blt __uds_ok
__uds_normalize:
cmp.c a0, a1
bcc __uds_ok
slli a1, a1, 1
slli t0, t0, 1
cmpi.c a1, 0
bge __uds_normalize
__uds_ok:
__uds_loop2:
cmp.c a0, a1
bcc __uds_loop3
sub a0, a0, a1
or t4, t4, t0
__uds_loop3:
srli t0, t0, 1
srli a1, a1, 1
cmpi.c t0, 0
bne __uds_loop2
__uds_exit:
mv a1, a0
mv r4, t4
.cprestore r0, 12 # pic used
addi r0, 8 # pic used
br ra
.end __udivsi3
/* unsigned modulus */
.ent __umodsi3
__umodsi3:
addi r0, -8 # pic used
.cpload r29 # pic used
li t1, 0
mv t3, ra
la r29, __udivsi3
brl r29
mv r4, a1
.cprestore r0, 12 # pic used
addi r0, 8 # pic used
br t3
.end __umodsi3
/* abs and div */
.ent __orgsi3
__orgsi3:
cmpi.c a0, 0
bge __orgsi3_a0p
neg a0, a0
__orgsi3_a0p:
cmpi.c a1, 0
bge __udivsi3
neg a1, a1
b __udivsi3 # goto udivsi3
.end __orgsi3
/* signed division */
.ent __divsi3
__divsi3:
addi r0, -8 # pic used
.cpload r29 # pic used
mv t3, ra
xor t2, a0, a1
la r29, __orgsi3
brl r29
__divsi3_adjust:
cmpi.c t2, 0
bge __divsi3_exit
neg r4, r4
__divsi3_exit:
.cprestore r0, 12 # pic used
addi r0, 8 # pic used
br t3
.end __divsi3
/* signed modulus */
.ent __modsi3
__modsi3:
addi r0, -8 # pic used
.cpload r29 # pic used
mv t3, ra
mv t2, a0
la r29, __orgsi3
brl r29
mv r4, a1
b __divsi3_adjust
.end __modsi3
#endif /*L_divsi3 */
#endif
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