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|
/* Copyright (C) 1994-2013 Free Software Foundation, Inc.
This file 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.
This file 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.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
!! libgcc routines for the Renesas / SuperH SH CPUs.
!! Contributed by Steve Chamberlain.
!! sac@cygnus.com
!! ashiftrt_r4_x, ___ashrsi3, ___ashlsi3, ___lshrsi3 routines
!! recoded in assembly by Toshiyasu Morita
!! tm@netcom.com
#if defined(__ELF__) && defined(__linux__)
.section .note.GNU-stack,"",%progbits
.previous
#endif
/* SH2 optimizations for ___ashrsi3, ___ashlsi3, ___lshrsi3 and
ELF local label prefixes by J"orn Rennecke
amylaar@cygnus.com */
#include "lib1funcs.h"
/* t-vxworks needs to build both PIC and non-PIC versions of libgcc,
so it is more convenient to define NO_FPSCR_VALUES here than to
define it on the command line. */
#if defined __vxworks && defined __PIC__
#define NO_FPSCR_VALUES
#endif
#if ! __SH5__
#ifdef L_ashiftrt
.global GLOBAL(ashiftrt_r4_0)
.global GLOBAL(ashiftrt_r4_1)
.global GLOBAL(ashiftrt_r4_2)
.global GLOBAL(ashiftrt_r4_3)
.global GLOBAL(ashiftrt_r4_4)
.global GLOBAL(ashiftrt_r4_5)
.global GLOBAL(ashiftrt_r4_6)
.global GLOBAL(ashiftrt_r4_7)
.global GLOBAL(ashiftrt_r4_8)
.global GLOBAL(ashiftrt_r4_9)
.global GLOBAL(ashiftrt_r4_10)
.global GLOBAL(ashiftrt_r4_11)
.global GLOBAL(ashiftrt_r4_12)
.global GLOBAL(ashiftrt_r4_13)
.global GLOBAL(ashiftrt_r4_14)
.global GLOBAL(ashiftrt_r4_15)
.global GLOBAL(ashiftrt_r4_16)
.global GLOBAL(ashiftrt_r4_17)
.global GLOBAL(ashiftrt_r4_18)
.global GLOBAL(ashiftrt_r4_19)
.global GLOBAL(ashiftrt_r4_20)
.global GLOBAL(ashiftrt_r4_21)
.global GLOBAL(ashiftrt_r4_22)
.global GLOBAL(ashiftrt_r4_23)
.global GLOBAL(ashiftrt_r4_24)
.global GLOBAL(ashiftrt_r4_25)
.global GLOBAL(ashiftrt_r4_26)
.global GLOBAL(ashiftrt_r4_27)
.global GLOBAL(ashiftrt_r4_28)
.global GLOBAL(ashiftrt_r4_29)
.global GLOBAL(ashiftrt_r4_30)
.global GLOBAL(ashiftrt_r4_31)
.global GLOBAL(ashiftrt_r4_32)
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_0))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_1))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_2))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_3))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_4))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_5))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_6))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_7))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_8))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_9))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_10))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_11))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_12))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_13))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_14))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_15))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_16))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_17))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_18))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_19))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_20))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_21))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_22))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_23))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_24))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_25))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_26))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_27))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_28))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_29))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_30))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_31))
HIDDEN_FUNC(GLOBAL(ashiftrt_r4_32))
.align 1
GLOBAL(ashiftrt_r4_32):
GLOBAL(ashiftrt_r4_31):
rotcl r4
rts
subc r4,r4
GLOBAL(ashiftrt_r4_30):
shar r4
GLOBAL(ashiftrt_r4_29):
shar r4
GLOBAL(ashiftrt_r4_28):
shar r4
GLOBAL(ashiftrt_r4_27):
shar r4
GLOBAL(ashiftrt_r4_26):
shar r4
GLOBAL(ashiftrt_r4_25):
shar r4
GLOBAL(ashiftrt_r4_24):
shlr16 r4
shlr8 r4
rts
exts.b r4,r4
GLOBAL(ashiftrt_r4_23):
shar r4
GLOBAL(ashiftrt_r4_22):
shar r4
GLOBAL(ashiftrt_r4_21):
shar r4
GLOBAL(ashiftrt_r4_20):
shar r4
GLOBAL(ashiftrt_r4_19):
shar r4
GLOBAL(ashiftrt_r4_18):
shar r4
GLOBAL(ashiftrt_r4_17):
shar r4
GLOBAL(ashiftrt_r4_16):
shlr16 r4
rts
exts.w r4,r4
GLOBAL(ashiftrt_r4_15):
shar r4
GLOBAL(ashiftrt_r4_14):
shar r4
GLOBAL(ashiftrt_r4_13):
shar r4
GLOBAL(ashiftrt_r4_12):
shar r4
GLOBAL(ashiftrt_r4_11):
shar r4
GLOBAL(ashiftrt_r4_10):
shar r4
GLOBAL(ashiftrt_r4_9):
shar r4
GLOBAL(ashiftrt_r4_8):
shar r4
GLOBAL(ashiftrt_r4_7):
shar r4
GLOBAL(ashiftrt_r4_6):
shar r4
GLOBAL(ashiftrt_r4_5):
shar r4
GLOBAL(ashiftrt_r4_4):
shar r4
GLOBAL(ashiftrt_r4_3):
shar r4
GLOBAL(ashiftrt_r4_2):
shar r4
GLOBAL(ashiftrt_r4_1):
rts
shar r4
GLOBAL(ashiftrt_r4_0):
rts
nop
ENDFUNC(GLOBAL(ashiftrt_r4_0))
ENDFUNC(GLOBAL(ashiftrt_r4_1))
ENDFUNC(GLOBAL(ashiftrt_r4_2))
ENDFUNC(GLOBAL(ashiftrt_r4_3))
ENDFUNC(GLOBAL(ashiftrt_r4_4))
ENDFUNC(GLOBAL(ashiftrt_r4_5))
ENDFUNC(GLOBAL(ashiftrt_r4_6))
ENDFUNC(GLOBAL(ashiftrt_r4_7))
ENDFUNC(GLOBAL(ashiftrt_r4_8))
ENDFUNC(GLOBAL(ashiftrt_r4_9))
ENDFUNC(GLOBAL(ashiftrt_r4_10))
ENDFUNC(GLOBAL(ashiftrt_r4_11))
ENDFUNC(GLOBAL(ashiftrt_r4_12))
ENDFUNC(GLOBAL(ashiftrt_r4_13))
ENDFUNC(GLOBAL(ashiftrt_r4_14))
ENDFUNC(GLOBAL(ashiftrt_r4_15))
ENDFUNC(GLOBAL(ashiftrt_r4_16))
ENDFUNC(GLOBAL(ashiftrt_r4_17))
ENDFUNC(GLOBAL(ashiftrt_r4_18))
ENDFUNC(GLOBAL(ashiftrt_r4_19))
ENDFUNC(GLOBAL(ashiftrt_r4_20))
ENDFUNC(GLOBAL(ashiftrt_r4_21))
ENDFUNC(GLOBAL(ashiftrt_r4_22))
ENDFUNC(GLOBAL(ashiftrt_r4_23))
ENDFUNC(GLOBAL(ashiftrt_r4_24))
ENDFUNC(GLOBAL(ashiftrt_r4_25))
ENDFUNC(GLOBAL(ashiftrt_r4_26))
ENDFUNC(GLOBAL(ashiftrt_r4_27))
ENDFUNC(GLOBAL(ashiftrt_r4_28))
ENDFUNC(GLOBAL(ashiftrt_r4_29))
ENDFUNC(GLOBAL(ashiftrt_r4_30))
ENDFUNC(GLOBAL(ashiftrt_r4_31))
ENDFUNC(GLOBAL(ashiftrt_r4_32))
#endif
#ifdef L_ashiftrt_n
!
! GLOBAL(ashrsi3)
!
! Entry:
!
! r4: Value to shift
! r5: Shift count
!
! Exit:
!
! r0: Result
!
! Destroys:
!
! T bit, r5
!
.global GLOBAL(ashrsi3)
HIDDEN_FUNC(GLOBAL(ashrsi3))
.align 2
GLOBAL(ashrsi3):
mov #31,r0
and r0,r5
mova LOCAL(ashrsi3_table),r0
mov.b @(r0,r5),r5
#ifdef __sh1__
add r5,r0
jmp @r0
#else
braf r5
#endif
mov r4,r0
.align 2
LOCAL(ashrsi3_table):
.byte LOCAL(ashrsi3_0)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_1)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_2)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_3)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_4)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_5)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_6)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_7)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_8)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_9)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_10)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_11)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_12)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_13)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_14)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_15)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_16)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_17)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_18)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_19)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_20)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_21)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_22)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_23)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_24)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_25)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_26)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_27)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_28)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_29)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_30)-LOCAL(ashrsi3_table)
.byte LOCAL(ashrsi3_31)-LOCAL(ashrsi3_table)
LOCAL(ashrsi3_31):
rotcl r0
rts
subc r0,r0
LOCAL(ashrsi3_30):
shar r0
LOCAL(ashrsi3_29):
shar r0
LOCAL(ashrsi3_28):
shar r0
LOCAL(ashrsi3_27):
shar r0
LOCAL(ashrsi3_26):
shar r0
LOCAL(ashrsi3_25):
shar r0
LOCAL(ashrsi3_24):
shlr16 r0
shlr8 r0
rts
exts.b r0,r0
LOCAL(ashrsi3_23):
shar r0
LOCAL(ashrsi3_22):
shar r0
LOCAL(ashrsi3_21):
shar r0
LOCAL(ashrsi3_20):
shar r0
LOCAL(ashrsi3_19):
shar r0
LOCAL(ashrsi3_18):
shar r0
LOCAL(ashrsi3_17):
shar r0
LOCAL(ashrsi3_16):
shlr16 r0
rts
exts.w r0,r0
LOCAL(ashrsi3_15):
shar r0
LOCAL(ashrsi3_14):
shar r0
LOCAL(ashrsi3_13):
shar r0
LOCAL(ashrsi3_12):
shar r0
LOCAL(ashrsi3_11):
shar r0
LOCAL(ashrsi3_10):
shar r0
LOCAL(ashrsi3_9):
shar r0
LOCAL(ashrsi3_8):
shar r0
LOCAL(ashrsi3_7):
shar r0
LOCAL(ashrsi3_6):
shar r0
LOCAL(ashrsi3_5):
shar r0
LOCAL(ashrsi3_4):
shar r0
LOCAL(ashrsi3_3):
shar r0
LOCAL(ashrsi3_2):
shar r0
LOCAL(ashrsi3_1):
rts
shar r0
LOCAL(ashrsi3_0):
rts
nop
ENDFUNC(GLOBAL(ashrsi3))
#endif
#ifdef L_ashiftlt
!
! GLOBAL(ashlsi3)
! (For compatibility with older binaries, not used by compiler)
!
! Entry:
! r4: Value to shift
! r5: Shift count
!
! Exit:
! r0: Result
!
! Destroys:
! T bit
!
!
! GLOBAL(ashlsi3_r0)
!
! Entry:
! r4: Value to shift
! r0: Shift count
!
! Exit:
! r0: Result
!
! Destroys:
! T bit
.global GLOBAL(ashlsi3)
.global GLOBAL(ashlsi3_r0)
HIDDEN_FUNC(GLOBAL(ashlsi3))
HIDDEN_FUNC(GLOBAL(ashlsi3_r0))
GLOBAL(ashlsi3):
mov r5,r0
.align 2
GLOBAL(ashlsi3_r0):
#ifdef __sh1__
and #31,r0
shll2 r0
mov.l r4,@-r15
mov r0,r4
mova LOCAL(ashlsi3_table),r0
add r4,r0
mov.l @r15+,r4
jmp @r0
mov r4,r0
.align 2
#else
and #31,r0
shll2 r0
braf r0
mov r4,r0
#endif
LOCAL(ashlsi3_table):
rts // << 0
nop
LOCAL(ashlsi_1):
rts // << 1
shll r0
LOCAL(ashlsi_2): // << 2
rts
shll2 r0
bra LOCAL(ashlsi_1) // << 3
shll2 r0
bra LOCAL(ashlsi_2) // << 4
shll2 r0
bra LOCAL(ashlsi_5) // << 5
shll r0
bra LOCAL(ashlsi_6) // << 6
shll2 r0
bra LOCAL(ashlsi_7) // << 7
shll r0
LOCAL(ashlsi_8): // << 8
rts
shll8 r0
bra LOCAL(ashlsi_8) // << 9
shll r0
bra LOCAL(ashlsi_8) // << 10
shll2 r0
bra LOCAL(ashlsi_11) // << 11
shll r0
bra LOCAL(ashlsi_12) // << 12
shll2 r0
bra LOCAL(ashlsi_13) // << 13
shll r0
bra LOCAL(ashlsi_14) // << 14
shll8 r0
bra LOCAL(ashlsi_15) // << 15
shll8 r0
LOCAL(ashlsi_16): // << 16
rts
shll16 r0
bra LOCAL(ashlsi_16) // << 17
shll r0
bra LOCAL(ashlsi_16) // << 18
shll2 r0
bra LOCAL(ashlsi_19) // << 19
shll r0
bra LOCAL(ashlsi_20) // << 20
shll2 r0
bra LOCAL(ashlsi_21) // << 21
shll r0
bra LOCAL(ashlsi_22) // << 22
shll16 r0
bra LOCAL(ashlsi_23) // << 23
shll16 r0
bra LOCAL(ashlsi_16) // << 24
shll8 r0
bra LOCAL(ashlsi_25) // << 25
shll r0
bra LOCAL(ashlsi_26) // << 26
shll2 r0
bra LOCAL(ashlsi_27) // << 27
shll r0
bra LOCAL(ashlsi_28) // << 28
shll2 r0
bra LOCAL(ashlsi_29) // << 29
shll16 r0
bra LOCAL(ashlsi_30) // << 30
shll16 r0
and #1,r0 // << 31
rts
rotr r0
LOCAL(ashlsi_7):
shll2 r0
LOCAL(ashlsi_5):
LOCAL(ashlsi_6):
shll2 r0
rts
LOCAL(ashlsi_13):
shll2 r0
LOCAL(ashlsi_12):
LOCAL(ashlsi_11):
shll8 r0
rts
LOCAL(ashlsi_21):
shll2 r0
LOCAL(ashlsi_20):
LOCAL(ashlsi_19):
shll16 r0
rts
LOCAL(ashlsi_28):
LOCAL(ashlsi_27):
shll2 r0
LOCAL(ashlsi_26):
LOCAL(ashlsi_25):
shll16 r0
rts
shll8 r0
LOCAL(ashlsi_22):
LOCAL(ashlsi_14):
shlr2 r0
rts
shll8 r0
LOCAL(ashlsi_23):
LOCAL(ashlsi_15):
shlr r0
rts
shll8 r0
LOCAL(ashlsi_29):
shlr r0
LOCAL(ashlsi_30):
shlr2 r0
rts
shll16 r0
ENDFUNC(GLOBAL(ashlsi3))
ENDFUNC(GLOBAL(ashlsi3_r0))
#endif
#ifdef L_lshiftrt
!
! GLOBAL(lshrsi3)
! (For compatibility with older binaries, not used by compiler)
!
! Entry:
! r4: Value to shift
! r5: Shift count
!
! Exit:
! r0: Result
!
! Destroys:
! T bit
!
!
! GLOBAL(lshrsi3_r0)
!
! Entry:
! r4: Value to shift
! r0: Shift count
!
! Exit:
! r0: Result
!
! Destroys:
! T bit
.global GLOBAL(lshrsi3)
.global GLOBAL(lshrsi3_r0)
HIDDEN_FUNC(GLOBAL(lshrsi3))
HIDDEN_FUNC(GLOBAL(lshrsi3_r0))
GLOBAL(lshrsi3):
mov r5,r0
.align 2
GLOBAL(lshrsi3_r0):
#ifdef __sh1__
and #31,r0
shll2 r0
mov.l r4,@-r15
mov r0,r4
mova LOCAL(lshrsi3_table),r0
add r4,r0
mov.l @r15+,r4
jmp @r0
mov r4,r0
.align 2
#else
and #31,r0
shll2 r0
braf r0
mov r4,r0
#endif
LOCAL(lshrsi3_table):
rts // >> 0
nop
LOCAL(lshrsi_1): // >> 1
rts
shlr r0
LOCAL(lshrsi_2): // >> 2
rts
shlr2 r0
bra LOCAL(lshrsi_1) // >> 3
shlr2 r0
bra LOCAL(lshrsi_2) // >> 4
shlr2 r0
bra LOCAL(lshrsi_5) // >> 5
shlr r0
bra LOCAL(lshrsi_6) // >> 6
shlr2 r0
bra LOCAL(lshrsi_7) // >> 7
shlr r0
LOCAL(lshrsi_8): // >> 8
rts
shlr8 r0
bra LOCAL(lshrsi_8) // >> 9
shlr r0
bra LOCAL(lshrsi_8) // >> 10
shlr2 r0
bra LOCAL(lshrsi_11) // >> 11
shlr r0
bra LOCAL(lshrsi_12) // >> 12
shlr2 r0
bra LOCAL(lshrsi_13) // >> 13
shlr r0
bra LOCAL(lshrsi_14) // >> 14
shlr8 r0
bra LOCAL(lshrsi_15) // >> 15
shlr8 r0
LOCAL(lshrsi_16): // >> 16
rts
shlr16 r0
bra LOCAL(lshrsi_16) // >> 17
shlr r0
bra LOCAL(lshrsi_16) // >> 18
shlr2 r0
bra LOCAL(lshrsi_19) // >> 19
shlr r0
bra LOCAL(lshrsi_20) // >> 20
shlr2 r0
bra LOCAL(lshrsi_21) // >> 21
shlr r0
bra LOCAL(lshrsi_22) // >> 22
shlr16 r0
bra LOCAL(lshrsi_23) // >> 23
shlr16 r0
bra LOCAL(lshrsi_16) // >> 24
shlr8 r0
bra LOCAL(lshrsi_25) // >> 25
shlr r0
bra LOCAL(lshrsi_26) // >> 26
shlr2 r0
bra LOCAL(lshrsi_27) // >> 27
shlr r0
bra LOCAL(lshrsi_28) // >> 28
shlr2 r0
bra LOCAL(lshrsi_29) // >> 29
shlr16 r0
bra LOCAL(lshrsi_30) // >> 30
shlr16 r0
shll r0 // >> 31
rts
movt r0
LOCAL(lshrsi_7):
shlr2 r0
LOCAL(lshrsi_5):
LOCAL(lshrsi_6):
shlr2 r0
rts
LOCAL(lshrsi_13):
shlr2 r0
LOCAL(lshrsi_12):
LOCAL(lshrsi_11):
shlr8 r0
rts
LOCAL(lshrsi_21):
shlr2 r0
LOCAL(lshrsi_20):
LOCAL(lshrsi_19):
shlr16 r0
rts
LOCAL(lshrsi_28):
LOCAL(lshrsi_27):
shlr2 r0
LOCAL(lshrsi_26):
LOCAL(lshrsi_25):
shlr16 r0
rts
shlr8 r0
LOCAL(lshrsi_22):
LOCAL(lshrsi_14):
shll2 r0
rts
shlr8 r0
LOCAL(lshrsi_23):
LOCAL(lshrsi_15):
shll r0
rts
shlr8 r0
LOCAL(lshrsi_29):
shll r0
LOCAL(lshrsi_30):
shll2 r0
rts
shlr16 r0
ENDFUNC(GLOBAL(lshrsi3))
ENDFUNC(GLOBAL(lshrsi3_r0))
#endif
#ifdef L_movmem
.text
.balign 4
.global GLOBAL(movmem)
HIDDEN_FUNC(GLOBAL(movmem))
HIDDEN_ALIAS(movstr,movmem)
/* This would be a lot simpler if r6 contained the byte count
minus 64, and we wouldn't be called here for a byte count of 64. */
GLOBAL(movmem):
sts.l pr,@-r15
shll2 r6
bsr GLOBAL(movmemSI52+2)
mov.l @(48,r5),r0
.balign 4
LOCAL(movmem_loop): /* Reached with rts */
mov.l @(60,r5),r0
add #-64,r6
mov.l r0,@(60,r4)
tst r6,r6
mov.l @(56,r5),r0
bt LOCAL(movmem_done)
mov.l r0,@(56,r4)
cmp/pl r6
mov.l @(52,r5),r0
add #64,r5
mov.l r0,@(52,r4)
add #64,r4
bt GLOBAL(movmemSI52)
! done all the large groups, do the remainder
! jump to movmem+
mova GLOBAL(movmemSI4)+4,r0
add r6,r0
jmp @r0
LOCAL(movmem_done): ! share slot insn, works out aligned.
lds.l @r15+,pr
mov.l r0,@(56,r4)
mov.l @(52,r5),r0
rts
mov.l r0,@(52,r4)
.balign 4
! ??? We need aliases movstr* for movmem* for the older libraries. These
! aliases will be removed at the some point in the future.
.global GLOBAL(movmemSI64)
HIDDEN_FUNC(GLOBAL(movmemSI64))
HIDDEN_ALIAS(movstrSI64,movmemSI64)
GLOBAL(movmemSI64):
mov.l @(60,r5),r0
mov.l r0,@(60,r4)
.global GLOBAL(movmemSI60)
HIDDEN_FUNC(GLOBAL(movmemSI60))
HIDDEN_ALIAS(movstrSI60,movmemSI60)
GLOBAL(movmemSI60):
mov.l @(56,r5),r0
mov.l r0,@(56,r4)
.global GLOBAL(movmemSI56)
HIDDEN_FUNC(GLOBAL(movmemSI56))
HIDDEN_ALIAS(movstrSI56,movmemSI56)
GLOBAL(movmemSI56):
mov.l @(52,r5),r0
mov.l r0,@(52,r4)
.global GLOBAL(movmemSI52)
HIDDEN_FUNC(GLOBAL(movmemSI52))
HIDDEN_ALIAS(movstrSI52,movmemSI52)
GLOBAL(movmemSI52):
mov.l @(48,r5),r0
mov.l r0,@(48,r4)
.global GLOBAL(movmemSI48)
HIDDEN_FUNC(GLOBAL(movmemSI48))
HIDDEN_ALIAS(movstrSI48,movmemSI48)
GLOBAL(movmemSI48):
mov.l @(44,r5),r0
mov.l r0,@(44,r4)
.global GLOBAL(movmemSI44)
HIDDEN_FUNC(GLOBAL(movmemSI44))
HIDDEN_ALIAS(movstrSI44,movmemSI44)
GLOBAL(movmemSI44):
mov.l @(40,r5),r0
mov.l r0,@(40,r4)
.global GLOBAL(movmemSI40)
HIDDEN_FUNC(GLOBAL(movmemSI40))
HIDDEN_ALIAS(movstrSI40,movmemSI40)
GLOBAL(movmemSI40):
mov.l @(36,r5),r0
mov.l r0,@(36,r4)
.global GLOBAL(movmemSI36)
HIDDEN_FUNC(GLOBAL(movmemSI36))
HIDDEN_ALIAS(movstrSI36,movmemSI36)
GLOBAL(movmemSI36):
mov.l @(32,r5),r0
mov.l r0,@(32,r4)
.global GLOBAL(movmemSI32)
HIDDEN_FUNC(GLOBAL(movmemSI32))
HIDDEN_ALIAS(movstrSI32,movmemSI32)
GLOBAL(movmemSI32):
mov.l @(28,r5),r0
mov.l r0,@(28,r4)
.global GLOBAL(movmemSI28)
HIDDEN_FUNC(GLOBAL(movmemSI28))
HIDDEN_ALIAS(movstrSI28,movmemSI28)
GLOBAL(movmemSI28):
mov.l @(24,r5),r0
mov.l r0,@(24,r4)
.global GLOBAL(movmemSI24)
HIDDEN_FUNC(GLOBAL(movmemSI24))
HIDDEN_ALIAS(movstrSI24,movmemSI24)
GLOBAL(movmemSI24):
mov.l @(20,r5),r0
mov.l r0,@(20,r4)
.global GLOBAL(movmemSI20)
HIDDEN_FUNC(GLOBAL(movmemSI20))
HIDDEN_ALIAS(movstrSI20,movmemSI20)
GLOBAL(movmemSI20):
mov.l @(16,r5),r0
mov.l r0,@(16,r4)
.global GLOBAL(movmemSI16)
HIDDEN_FUNC(GLOBAL(movmemSI16))
HIDDEN_ALIAS(movstrSI16,movmemSI16)
GLOBAL(movmemSI16):
mov.l @(12,r5),r0
mov.l r0,@(12,r4)
.global GLOBAL(movmemSI12)
HIDDEN_FUNC(GLOBAL(movmemSI12))
HIDDEN_ALIAS(movstrSI12,movmemSI12)
GLOBAL(movmemSI12):
mov.l @(8,r5),r0
mov.l r0,@(8,r4)
.global GLOBAL(movmemSI8)
HIDDEN_FUNC(GLOBAL(movmemSI8))
HIDDEN_ALIAS(movstrSI8,movmemSI8)
GLOBAL(movmemSI8):
mov.l @(4,r5),r0
mov.l r0,@(4,r4)
.global GLOBAL(movmemSI4)
HIDDEN_FUNC(GLOBAL(movmemSI4))
HIDDEN_ALIAS(movstrSI4,movmemSI4)
GLOBAL(movmemSI4):
mov.l @(0,r5),r0
rts
mov.l r0,@(0,r4)
ENDFUNC(GLOBAL(movmemSI64))
ENDFUNC(GLOBAL(movmemSI60))
ENDFUNC(GLOBAL(movmemSI56))
ENDFUNC(GLOBAL(movmemSI52))
ENDFUNC(GLOBAL(movmemSI48))
ENDFUNC(GLOBAL(movmemSI44))
ENDFUNC(GLOBAL(movmemSI40))
ENDFUNC(GLOBAL(movmemSI36))
ENDFUNC(GLOBAL(movmemSI32))
ENDFUNC(GLOBAL(movmemSI28))
ENDFUNC(GLOBAL(movmemSI24))
ENDFUNC(GLOBAL(movmemSI20))
ENDFUNC(GLOBAL(movmemSI16))
ENDFUNC(GLOBAL(movmemSI12))
ENDFUNC(GLOBAL(movmemSI8))
ENDFUNC(GLOBAL(movmemSI4))
ENDFUNC(GLOBAL(movmem))
#endif
#ifdef L_movmem_i4
.text
.global GLOBAL(movmem_i4_even)
.global GLOBAL(movmem_i4_odd)
.global GLOBAL(movmemSI12_i4)
HIDDEN_FUNC(GLOBAL(movmem_i4_even))
HIDDEN_FUNC(GLOBAL(movmem_i4_odd))
HIDDEN_FUNC(GLOBAL(movmemSI12_i4))
HIDDEN_ALIAS(movstr_i4_even,movmem_i4_even)
HIDDEN_ALIAS(movstr_i4_odd,movmem_i4_odd)
HIDDEN_ALIAS(movstrSI12_i4,movmemSI12_i4)
.p2align 5
L_movmem_2mod4_end:
mov.l r0,@(16,r4)
rts
mov.l r1,@(20,r4)
.p2align 2
GLOBAL(movmem_i4_even):
mov.l @r5+,r0
bra L_movmem_start_even
mov.l @r5+,r1
GLOBAL(movmem_i4_odd):
mov.l @r5+,r1
add #-4,r4
mov.l @r5+,r2
mov.l @r5+,r3
mov.l r1,@(4,r4)
mov.l r2,@(8,r4)
L_movmem_loop:
mov.l r3,@(12,r4)
dt r6
mov.l @r5+,r0
bt/s L_movmem_2mod4_end
mov.l @r5+,r1
add #16,r4
L_movmem_start_even:
mov.l @r5+,r2
mov.l @r5+,r3
mov.l r0,@r4
dt r6
mov.l r1,@(4,r4)
bf/s L_movmem_loop
mov.l r2,@(8,r4)
rts
mov.l r3,@(12,r4)
ENDFUNC(GLOBAL(movmem_i4_even))
ENDFUNC(GLOBAL(movmem_i4_odd))
.p2align 4
GLOBAL(movmemSI12_i4):
mov.l @r5,r0
mov.l @(4,r5),r1
mov.l @(8,r5),r2
mov.l r0,@r4
mov.l r1,@(4,r4)
rts
mov.l r2,@(8,r4)
ENDFUNC(GLOBAL(movmemSI12_i4))
#endif
#ifdef L_mulsi3
.global GLOBAL(mulsi3)
HIDDEN_FUNC(GLOBAL(mulsi3))
! r4 = aabb
! r5 = ccdd
! r0 = aabb*ccdd via partial products
!
! if aa == 0 and cc = 0
! r0 = bb*dd
!
! else
! aa = bb*dd + (aa*dd*65536) + (cc*bb*65536)
!
GLOBAL(mulsi3):
mulu.w r4,r5 ! multiply the lsws macl=bb*dd
mov r5,r3 ! r3 = ccdd
swap.w r4,r2 ! r2 = bbaa
xtrct r2,r3 ! r3 = aacc
tst r3,r3 ! msws zero ?
bf hiset
rts ! yes - then we have the answer
sts macl,r0
hiset: sts macl,r0 ! r0 = bb*dd
mulu.w r2,r5 ! brewing macl = aa*dd
sts macl,r1
mulu.w r3,r4 ! brewing macl = cc*bb
sts macl,r2
add r1,r2
shll16 r2
rts
add r2,r0
ENDFUNC(GLOBAL(mulsi3))
#endif
#endif /* ! __SH5__ */
/*------------------------------------------------------------------------------
32 bit signed integer division that uses FPU double precision division. */
#ifdef L_sdivsi3_i4
.title "SH DIVIDE"
#if defined (__SH4__) || defined (__SH2A__)
/* This variant is used when FPSCR.PR = 1 (double precision) is the default
setting.
Args in r4 and r5, result in fpul, clobber dr0, dr2. */
.global GLOBAL(sdivsi3_i4)
HIDDEN_FUNC(GLOBAL(sdivsi3_i4))
GLOBAL(sdivsi3_i4):
lds r4,fpul
float fpul,dr0
lds r5,fpul
float fpul,dr2
fdiv dr2,dr0
rts
ftrc dr0,fpul
ENDFUNC(GLOBAL(sdivsi3_i4))
#elif defined (__SH2A_SINGLE__) || defined (__SH2A_SINGLE_ONLY__) || defined(__SH4_SINGLE__) || defined(__SH4_SINGLE_ONLY__) || (defined (__SH5__) && ! defined __SH4_NOFPU__)
/* This variant is used when FPSCR.PR = 0 (sigle precision) is the default
setting.
Args in r4 and r5, result in fpul, clobber r2, dr0, dr2.
For this to work, we must temporarily switch the FPU do double precision,
but we better do not touch FPSCR.FR. See PR 6526. */
#if ! __SH5__ || __SH5__ == 32
#if __SH5__
.mode SHcompact
#endif
.global GLOBAL(sdivsi3_i4)
HIDDEN_FUNC(GLOBAL(sdivsi3_i4))
GLOBAL(sdivsi3_i4):
#ifndef __SH4A__
mov.l r3,@-r15
sts fpscr,r2
mov #8,r3
swap.w r3,r3 // r3 = 1 << 19 (FPSCR.PR bit)
or r2,r3
lds r3,fpscr // Set FPSCR.PR = 1.
lds r4,fpul
float fpul,dr0
lds r5,fpul
float fpul,dr2
fdiv dr2,dr0
ftrc dr0,fpul
lds r2,fpscr
rts
mov.l @r15+,r3
#else
/* On SH4A we can use the fpchg instruction to flip the FPSCR.PR bit. */
fpchg
lds r4,fpul
float fpul,dr0
lds r5,fpul
float fpul,dr2
fdiv dr2,dr0
ftrc dr0,fpul
rts
fpchg
#endif /* __SH4A__ */
ENDFUNC(GLOBAL(sdivsi3_i4))
#endif /* ! __SH5__ || __SH5__ == 32 */
#endif /* ! __SH4__ || __SH2A__ */
#endif /* L_sdivsi3_i4 */
//------------------------------------------------------------------------------
#ifdef L_sdivsi3
/* __SH4_SINGLE_ONLY__ keeps this part for link compatibility with
sh2e/sh3e code. */
!!
!! Steve Chamberlain
!! sac@cygnus.com
!!
!!
!! args in r4 and r5, result in r0 clobber r1, r2, r3, and t bit
.global GLOBAL(sdivsi3)
#if __SHMEDIA__
#if __SH5__ == 32
.section .text..SHmedia32,"ax"
#else
.text
#endif
.align 2
#if 0
/* The assembly code that follows is a hand-optimized version of the C
code that follows. Note that the registers that are modified are
exactly those listed as clobbered in the patterns divsi3_i1 and
divsi3_i1_media.
int __sdivsi3 (i, j)
int i, j;
{
register unsigned long long r18 asm ("r18");
register unsigned long long r19 asm ("r19");
register unsigned long long r0 asm ("r0") = 0;
register unsigned long long r1 asm ("r1") = 1;
register int r2 asm ("r2") = i >> 31;
register int r3 asm ("r3") = j >> 31;
r2 = r2 ? r2 : r1;
r3 = r3 ? r3 : r1;
r18 = i * r2;
r19 = j * r3;
r2 *= r3;
r19 <<= 31;
r1 <<= 31;
do
if (r18 >= r19)
r0 |= r1, r18 -= r19;
while (r19 >>= 1, r1 >>= 1);
return r2 * (int)r0;
}
*/
GLOBAL(sdivsi3):
pt/l LOCAL(sdivsi3_dontadd), tr2
pt/l LOCAL(sdivsi3_loop), tr1
ptabs/l r18, tr0
movi 0, r0
movi 1, r1
shari.l r4, 31, r2
shari.l r5, 31, r3
cmveq r2, r1, r2
cmveq r3, r1, r3
muls.l r4, r2, r18
muls.l r5, r3, r19
muls.l r2, r3, r2
shlli r19, 31, r19
shlli r1, 31, r1
LOCAL(sdivsi3_loop):
bgtu r19, r18, tr2
or r0, r1, r0
sub r18, r19, r18
LOCAL(sdivsi3_dontadd):
shlri r1, 1, r1
shlri r19, 1, r19
bnei r1, 0, tr1
muls.l r0, r2, r0
add.l r0, r63, r0
blink tr0, r63
#elif 0 /* ! 0 */
// inputs: r4,r5
// clobbered: r1,r2,r3,r18,r19,r20,r21,r25,tr0
// result in r0
GLOBAL(sdivsi3):
// can create absolute value without extra latency,
// but dependent on proper sign extension of inputs:
// shari.l r5,31,r2
// xor r5,r2,r20
// sub r20,r2,r20 // r20 is now absolute value of r5, zero-extended.
shari.l r5,31,r2
ori r2,1,r2
muls.l r5,r2,r20 // r20 is now absolute value of r5, zero-extended.
movi 0xffffffffffffbb0c,r19 // shift count eqiv 76
shari.l r4,31,r3
nsb r20,r0
shlld r20,r0,r25
shlri r25,48,r25
sub r19,r25,r1
mmulfx.w r1,r1,r2
mshflo.w r1,r63,r1
// If r4 was to be used in-place instead of r21, could use this sequence
// to compute absolute:
// sub r63,r4,r19 // compute absolute value of r4
// shlri r4,32,r3 // into lower 32 bit of r4, keeping
// mcmv r19,r3,r4 // the sign in the upper 32 bits intact.
ori r3,1,r3
mmulfx.w r25,r2,r2
sub r19,r0,r0
muls.l r4,r3,r21
msub.w r1,r2,r2
addi r2,-2,r1
mulu.l r21,r1,r19
mmulfx.w r2,r2,r2
shlli r1,15,r1
shlrd r19,r0,r19
mulu.l r19,r20,r3
mmacnfx.wl r25,r2,r1
ptabs r18,tr0
sub r21,r3,r25
mulu.l r25,r1,r2
addi r0,14,r0
xor r4,r5,r18
shlrd r2,r0,r2
mulu.l r2,r20,r3
add r19,r2,r19
shari.l r18,31,r18
sub r25,r3,r25
mulu.l r25,r1,r2
sub r25,r20,r25
add r19,r18,r19
shlrd r2,r0,r2
mulu.l r2,r20,r3
addi r25,1,r25
add r19,r2,r19
cmpgt r25,r3,r25
add.l r19,r25,r0
xor r0,r18,r0
blink tr0,r63
#else /* ! 0 && ! 0 */
// inputs: r4,r5
// clobbered: r1,r18,r19,r20,r21,r25,tr0
// result in r0
HIDDEN_FUNC(GLOBAL(sdivsi3_2))
#ifndef __pic__
FUNC(GLOBAL(sdivsi3))
GLOBAL(sdivsi3): /* this is the shcompact entry point */
// The special SHmedia entry point sdivsi3_1 prevents accidental linking
// with the SHcompact implementation, which clobbers tr1 / tr2.
.global GLOBAL(sdivsi3_1)
GLOBAL(sdivsi3_1):
.global GLOBAL(div_table_internal)
movi (GLOBAL(div_table_internal) >> 16) & 65535, r20
shori GLOBAL(div_table_internal) & 65535, r20
#endif
.global GLOBAL(sdivsi3_2)
// div_table in r20
// clobbered: r1,r18,r19,r21,r25,tr0
GLOBAL(sdivsi3_2):
nsb r5, r1
shlld r5, r1, r25 // normalize; [-2 ..1, 1..2) in s2.62
shari r25, 58, r21 // extract 5(6) bit index (s2.4 with hole -1..1)
ldx.ub r20, r21, r19 // u0.8
shari r25, 32, r25 // normalize to s2.30
shlli r21, 1, r21
muls.l r25, r19, r19 // s2.38
ldx.w r20, r21, r21 // s2.14
ptabs r18, tr0
shari r19, 24, r19 // truncate to s2.14
sub r21, r19, r19 // some 11 bit inverse in s1.14
muls.l r19, r19, r21 // u0.28
sub r63, r1, r1
addi r1, 92, r1
muls.l r25, r21, r18 // s2.58
shlli r19, 45, r19 // multiply by two and convert to s2.58
/* bubble */
sub r19, r18, r18
shari r18, 28, r18 // some 22 bit inverse in s1.30
muls.l r18, r25, r0 // s2.60
muls.l r18, r4, r25 // s32.30
/* bubble */
shari r0, 16, r19 // s-16.44
muls.l r19, r18, r19 // s-16.74
shari r25, 63, r0
shari r4, 14, r18 // s19.-14
shari r19, 30, r19 // s-16.44
muls.l r19, r18, r19 // s15.30
xor r21, r0, r21 // You could also use the constant 1 << 27.
add r21, r25, r21
sub r21, r19, r21
shard r21, r1, r21
sub r21, r0, r0
blink tr0, r63
#ifndef __pic__
ENDFUNC(GLOBAL(sdivsi3))
#endif
ENDFUNC(GLOBAL(sdivsi3_2))
#endif
#elif defined __SHMEDIA__
/* m5compact-nofpu */
// clobbered: r18,r19,r20,r21,r25,tr0,tr1,tr2
.mode SHmedia
.section .text..SHmedia32,"ax"
.align 2
FUNC(GLOBAL(sdivsi3))
GLOBAL(sdivsi3):
pt/l LOCAL(sdivsi3_dontsub), tr0
pt/l LOCAL(sdivsi3_loop), tr1
ptabs/l r18,tr2
shari.l r4,31,r18
shari.l r5,31,r19
xor r4,r18,r20
xor r5,r19,r21
sub.l r20,r18,r20
sub.l r21,r19,r21
xor r18,r19,r19
shlli r21,32,r25
addi r25,-1,r21
addz.l r20,r63,r20
LOCAL(sdivsi3_loop):
shlli r20,1,r20
bgeu/u r21,r20,tr0
sub r20,r21,r20
LOCAL(sdivsi3_dontsub):
addi.l r25,-1,r25
bnei r25,-32,tr1
xor r20,r19,r20
sub.l r20,r19,r0
blink tr2,r63
ENDFUNC(GLOBAL(sdivsi3))
#else /* ! __SHMEDIA__ */
FUNC(GLOBAL(sdivsi3))
GLOBAL(sdivsi3):
mov r4,r1
mov r5,r0
tst r0,r0
bt div0
mov #0,r2
div0s r2,r1
subc r3,r3
subc r2,r1
div0s r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
div1 r0,r3
rotcl r1
addc r2,r1
rts
mov r1,r0
div0: rts
mov #0,r0
ENDFUNC(GLOBAL(sdivsi3))
#endif /* ! __SHMEDIA__ */
#endif /* L_sdivsi3 */
/*------------------------------------------------------------------------------
32 bit unsigned integer division that uses FPU double precision division. */
#ifdef L_udivsi3_i4
.title "SH DIVIDE"
#if defined (__SH4__) || defined (__SH2A__)
/* This variant is used when FPSCR.PR = 1 (double precision) is the default
setting.
Args in r4 and r5, result in fpul,
clobber r0, r1, r4, r5, dr0, dr2, dr4, and t bit */
.global GLOBAL(udivsi3_i4)
HIDDEN_FUNC(GLOBAL(udivsi3_i4))
GLOBAL(udivsi3_i4):
mov #1,r1
cmp/hi r1,r5
bf/s trivial
rotr r1
xor r1,r4
lds r4,fpul
mova L1,r0
#ifdef FMOVD_WORKS
fmov.d @r0+,dr4
#else
fmov.s @r0+,DR40
fmov.s @r0,DR41
#endif
float fpul,dr0
xor r1,r5
lds r5,fpul
float fpul,dr2
fadd dr4,dr0
fadd dr4,dr2
fdiv dr2,dr0
rts
ftrc dr0,fpul
trivial:
rts
lds r4,fpul
.align 2
#ifdef FMOVD_WORKS
.align 3 // Make the double below 8 byte aligned.
#endif
L1:
.double 2147483648
ENDFUNC(GLOBAL(udivsi3_i4))
#elif defined (__SH5__) && ! defined (__SH4_NOFPU__) && ! defined (__SH2A_NOFPU__)
#if ! __SH5__ || __SH5__ == 32
!! args in r4 and r5, result in fpul, clobber r20, r21, dr0, fr33
.mode SHmedia
.global GLOBAL(udivsi3_i4)
HIDDEN_FUNC(GLOBAL(udivsi3_i4))
GLOBAL(udivsi3_i4):
addz.l r4,r63,r20
addz.l r5,r63,r21
fmov.qd r20,dr0
fmov.qd r21,dr32
ptabs r18,tr0
float.qd dr0,dr0
float.qd dr32,dr32
fdiv.d dr0,dr32,dr0
ftrc.dq dr0,dr32
fmov.s fr33,fr32
blink tr0,r63
ENDFUNC(GLOBAL(udivsi3_i4))
#endif /* ! __SH5__ || __SH5__ == 32 */
#elif defined (__SH2A_SINGLE__) || defined (__SH2A_SINGLE_ONLY__) || defined(__SH4_SINGLE__) || defined(__SH4_SINGLE_ONLY__)
/* This variant is used when FPSCR.PR = 0 (sigle precision) is the default
setting.
Args in r4 and r5, result in fpul,
clobber r0, r1, r4, r5, dr0, dr2, dr4.
For this to work, we must temporarily switch the FPU do double precision,
but we better do not touch FPSCR.FR. See PR 6526. */
.global GLOBAL(udivsi3_i4)
HIDDEN_FUNC(GLOBAL(udivsi3_i4))
GLOBAL(udivsi3_i4):
#ifndef __SH4A__
mov #1,r1
cmp/hi r1,r5
bf/s trivial
rotr r1 // r1 = 1 << 31
sts.l fpscr,@-r15
xor r1,r4
mov.l @(0,r15),r0
xor r1,r5
mov.l L2,r1
lds r4,fpul
or r0,r1
mova L1,r0
lds r1,fpscr
#ifdef FMOVD_WORKS
fmov.d @r0+,dr4
#else
fmov.s @r0+,DR40
fmov.s @r0,DR41
#endif
float fpul,dr0
lds r5,fpul
float fpul,dr2
fadd dr4,dr0
fadd dr4,dr2
fdiv dr2,dr0
ftrc dr0,fpul
rts
lds.l @r15+,fpscr
#ifdef FMOVD_WORKS
.align 3 // Make the double below 8 byte aligned.
#endif
trivial:
rts
lds r4,fpul
.align 2
L2:
#ifdef FMOVD_WORKS
.long 0x180000 // FPSCR.PR = 1, FPSCR.SZ = 1
#else
.long 0x80000 // FPSCR.PR = 1
#endif
L1:
.double 2147483648
#else
/* On SH4A we can use the fpchg instruction to flip the FPSCR.PR bit.
Although on SH4A fmovd usually works, it would require either additional
two fschg instructions or an FPSCR push + pop. It's not worth the effort
for loading only one double constant. */
mov #1,r1
cmp/hi r1,r5
bf/s trivial
rotr r1 // r1 = 1 << 31
fpchg
mova L1,r0
xor r1,r4
fmov.s @r0+,DR40
lds r4,fpul
fmov.s @r0,DR41
xor r1,r5
float fpul,dr0
lds r5,fpul
float fpul,dr2
fadd dr4,dr0
fadd dr4,dr2
fdiv dr2,dr0
ftrc dr0,fpul
rts
fpchg
trivial:
rts
lds r4,fpul
.align 2
L1:
.double 2147483648
#endif /* __SH4A__ */
ENDFUNC(GLOBAL(udivsi3_i4))
#endif /* ! __SH4__ */
#endif /* L_udivsi3_i4 */
#ifdef L_udivsi3
/* __SH4_SINGLE_ONLY__ keeps this part for link compatibility with
sh2e/sh3e code. */
!! args in r4 and r5, result in r0, clobbers r4, pr, and t bit
.global GLOBAL(udivsi3)
HIDDEN_FUNC(GLOBAL(udivsi3))
#if __SHMEDIA__
#if __SH5__ == 32
.section .text..SHmedia32,"ax"
#else
.text
#endif
.align 2
#if 0
/* The assembly code that follows is a hand-optimized version of the C
code that follows. Note that the registers that are modified are
exactly those listed as clobbered in the patterns udivsi3_i1 and
udivsi3_i1_media.
unsigned
__udivsi3 (i, j)
unsigned i, j;
{
register unsigned long long r0 asm ("r0") = 0;
register unsigned long long r18 asm ("r18") = 1;
register unsigned long long r4 asm ("r4") = i;
register unsigned long long r19 asm ("r19") = j;
r19 <<= 31;
r18 <<= 31;
do
if (r4 >= r19)
r0 |= r18, r4 -= r19;
while (r19 >>= 1, r18 >>= 1);
return r0;
}
*/
GLOBAL(udivsi3):
pt/l LOCAL(udivsi3_dontadd), tr2
pt/l LOCAL(udivsi3_loop), tr1
ptabs/l r18, tr0
movi 0, r0
movi 1, r18
addz.l r5, r63, r19
addz.l r4, r63, r4
shlli r19, 31, r19
shlli r18, 31, r18
LOCAL(udivsi3_loop):
bgtu r19, r4, tr2
or r0, r18, r0
sub r4, r19, r4
LOCAL(udivsi3_dontadd):
shlri r18, 1, r18
shlri r19, 1, r19
bnei r18, 0, tr1
blink tr0, r63
#else
GLOBAL(udivsi3):
// inputs: r4,r5
// clobbered: r18,r19,r20,r21,r22,r25,tr0
// result in r0.
addz.l r5,r63,r22
nsb r22,r0
shlld r22,r0,r25
shlri r25,48,r25
movi 0xffffffffffffbb0c,r20 // shift count eqiv 76
sub r20,r25,r21
mmulfx.w r21,r21,r19
mshflo.w r21,r63,r21
ptabs r18,tr0
mmulfx.w r25,r19,r19
sub r20,r0,r0
/* bubble */
msub.w r21,r19,r19
addi r19,-2,r21 /* It would be nice for scheduling to do this add to r21
before the msub.w, but we need a different value for
r19 to keep errors under control. */
mulu.l r4,r21,r18
mmulfx.w r19,r19,r19
shlli r21,15,r21
shlrd r18,r0,r18
mulu.l r18,r22,r20
mmacnfx.wl r25,r19,r21
/* bubble */
sub r4,r20,r25
mulu.l r25,r21,r19
addi r0,14,r0
/* bubble */
shlrd r19,r0,r19
mulu.l r19,r22,r20
add r18,r19,r18
/* bubble */
sub.l r25,r20,r25
mulu.l r25,r21,r19
addz.l r25,r63,r25
sub r25,r22,r25
shlrd r19,r0,r19
mulu.l r19,r22,r20
addi r25,1,r25
add r18,r19,r18
cmpgt r25,r20,r25
add.l r18,r25,r0
blink tr0,r63
#endif
#elif defined (__SHMEDIA__)
/* m5compact-nofpu - more emphasis on code size than on speed, but don't
ignore speed altogether - div1 needs 9 cycles, subc 7 and rotcl 4.
So use a short shmedia loop. */
// clobbered: r20,r21,r25,tr0,tr1,tr2
.mode SHmedia
.section .text..SHmedia32,"ax"
.align 2
GLOBAL(udivsi3):
pt/l LOCAL(udivsi3_dontsub), tr0
pt/l LOCAL(udivsi3_loop), tr1
ptabs/l r18,tr2
shlli r5,32,r25
addi r25,-1,r21
addz.l r4,r63,r20
LOCAL(udivsi3_loop):
shlli r20,1,r20
bgeu/u r21,r20,tr0
sub r20,r21,r20
LOCAL(udivsi3_dontsub):
addi.l r25,-1,r25
bnei r25,-32,tr1
add.l r20,r63,r0
blink tr2,r63
#else /* ! defined (__SHMEDIA__) */
LOCAL(div8):
div1 r5,r4
LOCAL(div7):
div1 r5,r4; div1 r5,r4; div1 r5,r4
div1 r5,r4; div1 r5,r4; div1 r5,r4; rts; div1 r5,r4
LOCAL(divx4):
div1 r5,r4; rotcl r0
div1 r5,r4; rotcl r0
div1 r5,r4; rotcl r0
rts; div1 r5,r4
GLOBAL(udivsi3):
sts.l pr,@-r15
extu.w r5,r0
cmp/eq r5,r0
#ifdef __sh1__
bf LOCAL(large_divisor)
#else
bf/s LOCAL(large_divisor)
#endif
div0u
swap.w r4,r0
shlr16 r4
bsr LOCAL(div8)
shll16 r5
bsr LOCAL(div7)
div1 r5,r4
xtrct r4,r0
xtrct r0,r4
bsr LOCAL(div8)
swap.w r4,r4
bsr LOCAL(div7)
div1 r5,r4
lds.l @r15+,pr
xtrct r4,r0
swap.w r0,r0
rotcl r0
rts
shlr16 r5
LOCAL(large_divisor):
#ifdef __sh1__
div0u
#endif
mov #0,r0
xtrct r4,r0
xtrct r0,r4
bsr LOCAL(divx4)
rotcl r0
bsr LOCAL(divx4)
rotcl r0
bsr LOCAL(divx4)
rotcl r0
bsr LOCAL(divx4)
rotcl r0
lds.l @r15+,pr
rts
rotcl r0
ENDFUNC(GLOBAL(udivsi3))
#endif /* ! __SHMEDIA__ */
#endif /* L_udivsi3 */
#ifdef L_udivdi3
#ifdef __SHMEDIA__
.mode SHmedia
.section .text..SHmedia32,"ax"
.align 2
.global GLOBAL(udivdi3)
FUNC(GLOBAL(udivdi3))
GLOBAL(udivdi3):
HIDDEN_ALIAS(udivdi3_internal,udivdi3)
shlri r3,1,r4
nsb r4,r22
shlld r3,r22,r6
shlri r6,49,r5
movi 0xffffffffffffbaf1,r21 /* .l shift count 17. */
sub r21,r5,r1
mmulfx.w r1,r1,r4
mshflo.w r1,r63,r1
sub r63,r22,r20 // r63 == 64 % 64
mmulfx.w r5,r4,r4
pta LOCAL(large_divisor),tr0
addi r20,32,r9
msub.w r1,r4,r1
madd.w r1,r1,r1
mmulfx.w r1,r1,r4
shlri r6,32,r7
bgt/u r9,r63,tr0 // large_divisor
mmulfx.w r5,r4,r4
shlri r2,32+14,r19
addi r22,-31,r0
msub.w r1,r4,r1
mulu.l r1,r7,r4
addi r1,-3,r5
mulu.l r5,r19,r5
sub r63,r4,r4 // Negate to make sure r1 ends up <= 1/r2
shlri r4,2,r4 /* chop off leading %0000000000000000 001.00000000000 - or, as
the case may be, %0000000000000000 000.11111111111, still */
muls.l r1,r4,r4 /* leaving at least one sign bit. */
mulu.l r5,r3,r8
mshalds.l r1,r21,r1
shari r4,26,r4
shlld r8,r0,r8
add r1,r4,r1 // 31 bit unsigned reciprocal now in r1 (msb equiv. 0.5)
sub r2,r8,r2
/* Can do second step of 64 : 32 div now, using r1 and the rest in r2. */
shlri r2,22,r21
mulu.l r21,r1,r21
shlld r5,r0,r8
addi r20,30-22,r0
shlrd r21,r0,r21
mulu.l r21,r3,r5
add r8,r21,r8
mcmpgt.l r21,r63,r21 // See Note 1
addi r20,30,r0
mshfhi.l r63,r21,r21
sub r2,r5,r2
andc r2,r21,r2
/* small divisor: need a third divide step */
mulu.l r2,r1,r7
ptabs r18,tr0
addi r2,1,r2
shlrd r7,r0,r7
mulu.l r7,r3,r5
add r8,r7,r8
sub r2,r3,r2
cmpgt r2,r5,r5
add r8,r5,r2
/* could test r3 here to check for divide by zero. */
blink tr0,r63
LOCAL(large_divisor):
mmulfx.w r5,r4,r4
shlrd r2,r9,r25
shlri r25,32,r8
msub.w r1,r4,r1
mulu.l r1,r7,r4
addi r1,-3,r5
mulu.l r5,r8,r5
sub r63,r4,r4 // Negate to make sure r1 ends up <= 1/r2
shlri r4,2,r4 /* chop off leading %0000000000000000 001.00000000000 - or, as
the case may be, %0000000000000000 000.11111111111, still */
muls.l r1,r4,r4 /* leaving at least one sign bit. */
shlri r5,14-1,r8
mulu.l r8,r7,r5
mshalds.l r1,r21,r1
shari r4,26,r4
add r1,r4,r1 // 31 bit unsigned reciprocal now in r1 (msb equiv. 0.5)
sub r25,r5,r25
/* Can do second step of 64 : 32 div now, using r1 and the rest in r25. */
shlri r25,22,r21
mulu.l r21,r1,r21
pta LOCAL(no_lo_adj),tr0
addi r22,32,r0
shlri r21,40,r21
mulu.l r21,r7,r5
add r8,r21,r8
shlld r2,r0,r2
sub r25,r5,r25
bgtu/u r7,r25,tr0 // no_lo_adj
addi r8,1,r8
sub r25,r7,r25
LOCAL(no_lo_adj):
mextr4 r2,r25,r2
/* large_divisor: only needs a few adjustments. */
mulu.l r8,r6,r5
ptabs r18,tr0
/* bubble */
cmpgtu r5,r2,r5
sub r8,r5,r2
blink tr0,r63
ENDFUNC(GLOBAL(udivdi3))
/* Note 1: To shift the result of the second divide stage so that the result
always fits into 32 bits, yet we still reduce the rest sufficiently
would require a lot of instructions to do the shifts just right. Using
the full 64 bit shift result to multiply with the divisor would require
four extra instructions for the upper 32 bits (shift / mulu / shift / sub).
Fortunately, if the upper 32 bits of the shift result are nonzero, we
know that the rest after taking this partial result into account will
fit into 32 bits. So we just clear the upper 32 bits of the rest if the
upper 32 bits of the partial result are nonzero. */
#endif /* __SHMEDIA__ */
#endif /* L_udivdi3 */
#ifdef L_divdi3
#ifdef __SHMEDIA__
.mode SHmedia
.section .text..SHmedia32,"ax"
.align 2
.global GLOBAL(divdi3)
FUNC(GLOBAL(divdi3))
GLOBAL(divdi3):
pta GLOBAL(udivdi3_internal),tr0
shari r2,63,r22
shari r3,63,r23
xor r2,r22,r2
xor r3,r23,r3
sub r2,r22,r2
sub r3,r23,r3
beq/u r22,r23,tr0
ptabs r18,tr1
blink tr0,r18
sub r63,r2,r2
blink tr1,r63
ENDFUNC(GLOBAL(divdi3))
#endif /* __SHMEDIA__ */
#endif /* L_divdi3 */
#ifdef L_umoddi3
#ifdef __SHMEDIA__
.mode SHmedia
.section .text..SHmedia32,"ax"
.align 2
.global GLOBAL(umoddi3)
FUNC(GLOBAL(umoddi3))
GLOBAL(umoddi3):
HIDDEN_ALIAS(umoddi3_internal,umoddi3)
shlri r3,1,r4
nsb r4,r22
shlld r3,r22,r6
shlri r6,49,r5
movi 0xffffffffffffbaf1,r21 /* .l shift count 17. */
sub r21,r5,r1
mmulfx.w r1,r1,r4
mshflo.w r1,r63,r1
sub r63,r22,r20 // r63 == 64 % 64
mmulfx.w r5,r4,r4
pta LOCAL(large_divisor),tr0
addi r20,32,r9
msub.w r1,r4,r1
madd.w r1,r1,r1
mmulfx.w r1,r1,r4
shlri r6,32,r7
bgt/u r9,r63,tr0 // large_divisor
mmulfx.w r5,r4,r4
shlri r2,32+14,r19
addi r22,-31,r0
msub.w r1,r4,r1
mulu.l r1,r7,r4
addi r1,-3,r5
mulu.l r5,r19,r5
sub r63,r4,r4 // Negate to make sure r1 ends up <= 1/r2
shlri r4,2,r4 /* chop off leading %0000000000000000 001.00000000000 - or, as
the case may be, %0000000000000000 000.11111111111, still */
muls.l r1,r4,r4 /* leaving at least one sign bit. */
mulu.l r5,r3,r5
mshalds.l r1,r21,r1
shari r4,26,r4
shlld r5,r0,r5
add r1,r4,r1 // 31 bit unsigned reciprocal now in r1 (msb equiv. 0.5)
sub r2,r5,r2
/* Can do second step of 64 : 32 div now, using r1 and the rest in r2. */
shlri r2,22,r21
mulu.l r21,r1,r21
addi r20,30-22,r0
/* bubble */ /* could test r3 here to check for divide by zero. */
shlrd r21,r0,r21
mulu.l r21,r3,r5
mcmpgt.l r21,r63,r21 // See Note 1
addi r20,30,r0
mshfhi.l r63,r21,r21
sub r2,r5,r2
andc r2,r21,r2
/* small divisor: need a third divide step */
mulu.l r2,r1,r7
ptabs r18,tr0
sub r2,r3,r8 /* re-use r8 here for rest - r3 */
shlrd r7,r0,r7
mulu.l r7,r3,r5
/* bubble */
addi r8,1,r7
cmpgt r7,r5,r7
cmvne r7,r8,r2
sub r2,r5,r2
blink tr0,r63
LOCAL(large_divisor):
mmulfx.w r5,r4,r4
shlrd r2,r9,r25
shlri r25,32,r8
msub.w r1,r4,r1
mulu.l r1,r7,r4
addi r1,-3,r5
mulu.l r5,r8,r5
sub r63,r4,r4 // Negate to make sure r1 ends up <= 1/r2
shlri r4,2,r4 /* chop off leading %0000000000000000 001.00000000000 - or, as
the case may be, %0000000000000000 000.11111111111, still */
muls.l r1,r4,r4 /* leaving at least one sign bit. */
shlri r5,14-1,r8
mulu.l r8,r7,r5
mshalds.l r1,r21,r1
shari r4,26,r4
add r1,r4,r1 // 31 bit unsigned reciprocal now in r1 (msb equiv. 0.5)
sub r25,r5,r25
/* Can do second step of 64 : 32 div now, using r1 and the rest in r25. */
shlri r25,22,r21
mulu.l r21,r1,r21
pta LOCAL(no_lo_adj),tr0
addi r22,32,r0
shlri r21,40,r21
mulu.l r21,r7,r5
add r8,r21,r8
shlld r2,r0,r2
sub r25,r5,r25
bgtu/u r7,r25,tr0 // no_lo_adj
addi r8,1,r8
sub r25,r7,r25
LOCAL(no_lo_adj):
mextr4 r2,r25,r2
/* large_divisor: only needs a few adjustments. */
mulu.l r8,r6,r5
ptabs r18,tr0
add r2,r6,r7
cmpgtu r5,r2,r8
cmvne r8,r7,r2
sub r2,r5,r2
shlrd r2,r22,r2
blink tr0,r63
ENDFUNC(GLOBAL(umoddi3))
/* Note 1: To shift the result of the second divide stage so that the result
always fits into 32 bits, yet we still reduce the rest sufficiently
would require a lot of instructions to do the shifts just right. Using
the full 64 bit shift result to multiply with the divisor would require
four extra instructions for the upper 32 bits (shift / mulu / shift / sub).
Fortunately, if the upper 32 bits of the shift result are nonzero, we
know that the rest after taking this partial result into account will
fit into 32 bits. So we just clear the upper 32 bits of the rest if the
upper 32 bits of the partial result are nonzero. */
#endif /* __SHMEDIA__ */
#endif /* L_umoddi3 */
#ifdef L_moddi3
#ifdef __SHMEDIA__
.mode SHmedia
.section .text..SHmedia32,"ax"
.align 2
.global GLOBAL(moddi3)
FUNC(GLOBAL(moddi3))
GLOBAL(moddi3):
pta GLOBAL(umoddi3_internal),tr0
shari r2,63,r22
shari r3,63,r23
xor r2,r22,r2
xor r3,r23,r3
sub r2,r22,r2
sub r3,r23,r3
beq/u r22,r63,tr0
ptabs r18,tr1
blink tr0,r18
sub r63,r2,r2
blink tr1,r63
ENDFUNC(GLOBAL(moddi3))
#endif /* __SHMEDIA__ */
#endif /* L_moddi3 */
#ifdef L_set_fpscr
#if !defined (__SH2A_NOFPU__)
#if defined (__SH2E__) || defined (__SH2A__) || defined (__SH3E__) || defined(__SH4_SINGLE__) || defined(__SH4__) || defined(__SH4_SINGLE_ONLY__) || __SH5__ == 32
#ifdef __SH5__
.mode SHcompact
#endif
.global GLOBAL(set_fpscr)
HIDDEN_FUNC(GLOBAL(set_fpscr))
GLOBAL(set_fpscr):
lds r4,fpscr
#ifdef __PIC__
mov.l r12,@-r15
#ifdef __vxworks
mov.l LOCAL(set_fpscr_L0_base),r12
mov.l LOCAL(set_fpscr_L0_index),r0
mov.l @r12,r12
mov.l @(r0,r12),r12
#else
mova LOCAL(set_fpscr_L0),r0
mov.l LOCAL(set_fpscr_L0),r12
add r0,r12
#endif
mov.l LOCAL(set_fpscr_L1),r0
mov.l @(r0,r12),r1
mov.l @r15+,r12
#else
mov.l LOCAL(set_fpscr_L1),r1
#endif
swap.w r4,r0
or #24,r0
#ifndef FMOVD_WORKS
xor #16,r0
#endif
#if defined(__SH4__) || defined (__SH2A_DOUBLE__)
swap.w r0,r3
mov.l r3,@(4,r1)
#else /* defined (__SH2E__) || defined(__SH3E__) || defined(__SH4_SINGLE*__) */
swap.w r0,r2
mov.l r2,@r1
#endif
#ifndef FMOVD_WORKS
xor #8,r0
#else
xor #24,r0
#endif
#if defined(__SH4__) || defined (__SH2A_DOUBLE__)
swap.w r0,r2
rts
mov.l r2,@r1
#else /* defined(__SH2E__) || defined(__SH3E__) || defined(__SH4_SINGLE*__) */
swap.w r0,r3
rts
mov.l r3,@(4,r1)
#endif
.align 2
#ifdef __PIC__
#ifdef __vxworks
LOCAL(set_fpscr_L0_base):
.long ___GOTT_BASE__
LOCAL(set_fpscr_L0_index):
.long ___GOTT_INDEX__
#else
LOCAL(set_fpscr_L0):
.long _GLOBAL_OFFSET_TABLE_
#endif
LOCAL(set_fpscr_L1):
.long GLOBAL(fpscr_values@GOT)
#else
LOCAL(set_fpscr_L1):
.long GLOBAL(fpscr_values)
#endif
ENDFUNC(GLOBAL(set_fpscr))
#ifndef NO_FPSCR_VALUES
#ifdef __ELF__
.comm GLOBAL(fpscr_values),8,4
#else
.comm GLOBAL(fpscr_values),8
#endif /* ELF */
#endif /* NO_FPSCR_VALUES */
#endif /* SH2E / SH3E / SH4 */
#endif /* __SH2A_NOFPU__ */
#endif /* L_set_fpscr */
#ifdef L_ic_invalidate
#if __SH5__ == 32
.mode SHmedia
.section .text..SHmedia32,"ax"
.align 2
.global GLOBAL(init_trampoline)
HIDDEN_FUNC(GLOBAL(init_trampoline))
GLOBAL(init_trampoline):
st.l r0,8,r2
#ifdef __LITTLE_ENDIAN__
movi 9,r20
shori 0x402b,r20
shori 0xd101,r20
shori 0xd002,r20
#else
movi 0xffffffffffffd002,r20
shori 0xd101,r20
shori 0x402b,r20
shori 9,r20
#endif
st.q r0,0,r20
st.l r0,12,r3
ENDFUNC(GLOBAL(init_trampoline))
.global GLOBAL(ic_invalidate)
HIDDEN_FUNC(GLOBAL(ic_invalidate))
GLOBAL(ic_invalidate):
ocbwb r0,0
synco
icbi r0, 0
ptabs r18, tr0
synci
blink tr0, r63
ENDFUNC(GLOBAL(ic_invalidate))
#elif defined(__SH4A__)
.global GLOBAL(ic_invalidate)
HIDDEN_FUNC(GLOBAL(ic_invalidate))
GLOBAL(ic_invalidate):
ocbwb @r4
synco
icbi @r4
rts
nop
ENDFUNC(GLOBAL(ic_invalidate))
#elif defined(__SH4_SINGLE__) || defined(__SH4__) || defined(__SH4_SINGLE_ONLY__) || (defined(__SH4_NOFPU__) && !defined(__SH5__))
/* For system code, we use ic_invalidate_line_i, but user code
needs a different mechanism. A kernel call is generally not
available, and it would also be slow. Different SH4 variants use
different sizes and associativities of the Icache. We use a small
bit of dispatch code that can be put hidden in every shared object,
which calls the actual processor-specific invalidation code in a
separate module.
Or if you have operating system support, the OS could mmap the
procesor-specific code from a single page, since it is highly
repetitive. */
.global GLOBAL(ic_invalidate)
HIDDEN_FUNC(GLOBAL(ic_invalidate))
GLOBAL(ic_invalidate):
#ifdef __pic__
#ifdef __vxworks
mov.l 1f,r1
mov.l 2f,r0
mov.l @r1,r1
mov.l 0f,r2
mov.l @(r0,r1),r0
#else
mov.l 1f,r1
mova 1f,r0
mov.l 0f,r2
add r1,r0
#endif
mov.l @(r0,r2),r1
#else
mov.l 0f,r1
#endif
ocbwb @r4
mov.l @(8,r1),r0
sub r1,r4
and r4,r0
add r1,r0
jmp @r0
mov.l @(4,r1),r0
.align 2
#ifndef __pic__
0: .long GLOBAL(ic_invalidate_array)
#else /* __pic__ */
.global GLOBAL(ic_invalidate_array)
0: .long GLOBAL(ic_invalidate_array)@GOT
#ifdef __vxworks
1: .long ___GOTT_BASE__
2: .long ___GOTT_INDEX__
#else
1: .long _GLOBAL_OFFSET_TABLE_
#endif
ENDFUNC(GLOBAL(ic_invalidate))
#endif /* __pic__ */
#endif /* SH4 */
#endif /* L_ic_invalidate */
#ifdef L_ic_invalidate_array
#if defined(__SH4A__) || (defined (__FORCE_SH4A__) && (defined(__SH4_SINGLE__) || defined(__SH4__) || defined(__SH4_SINGLE_ONLY__) || (defined(__SH4_NOFPU__) && !defined(__SH5__))))
.global GLOBAL(ic_invalidate_array)
/* This is needed when an SH4 dso with trampolines is used on SH4A. */
.global GLOBAL(ic_invalidate_array)
FUNC(GLOBAL(ic_invalidate_array))
GLOBAL(ic_invalidate_array):
add r1,r4
synco
icbi @r4
rts
nop
.align 2
.long 0
ENDFUNC(GLOBAL(ic_invalidate_array))
#elif defined(__SH4_SINGLE__) || defined(__SH4__) || defined(__SH4_SINGLE_ONLY__) || (defined(__SH4_NOFPU__) && !defined(__SH5__))
.global GLOBAL(ic_invalidate_array)
.p2align 5
FUNC(GLOBAL(ic_invalidate_array))
/* This must be aligned to the beginning of a cache line. */
GLOBAL(ic_invalidate_array):
#ifndef WAYS
#define WAYS 4
#define WAY_SIZE 0x4000
#endif
#if WAYS == 1
.rept WAY_SIZE * WAYS / 32
rts
nop
.rept 7
.long WAY_SIZE - 32
.endr
.endr
#elif WAYS <= 6
.rept WAY_SIZE * WAYS / 32
braf r0
add #-8,r0
.long WAY_SIZE + 8
.long WAY_SIZE - 32
.rept WAYS-2
braf r0
nop
.endr
.rept 7 - WAYS
rts
nop
.endr
.endr
#else /* WAYS > 6 */
/* This variant needs two different pages for mmap-ing. */
.rept WAYS-1
.rept WAY_SIZE / 32
braf r0
nop
.long WAY_SIZE
.rept 6
.long WAY_SIZE - 32
.endr
.endr
.endr
.rept WAY_SIZE / 32
rts
.rept 15
nop
.endr
.endr
#endif /* WAYS */
ENDFUNC(GLOBAL(ic_invalidate_array))
#endif /* SH4 */
#endif /* L_ic_invalidate_array */
#if defined (__SH5__) && __SH5__ == 32
#ifdef L_shcompact_call_trampoline
.section .rodata
.align 1
LOCAL(ct_main_table):
.word LOCAL(ct_r2_fp) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r2_ld) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r2_pop) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r3_fp) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r3_ld) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r3_pop) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r4_fp) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r4_ld) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r4_pop) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r5_fp) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r5_ld) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r5_pop) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r6_fph) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r6_fpl) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r6_ld) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r6_pop) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r7_fph) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r7_fpl) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r7_ld) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r7_pop) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r8_fph) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r8_fpl) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r8_ld) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r8_pop) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r9_fph) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r9_fpl) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r9_ld) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r9_pop) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_pop_seq) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_pop_seq) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_r9_pop) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_ret_wide) - datalabel LOCAL(ct_main_label)
.word LOCAL(ct_call_func) - datalabel LOCAL(ct_main_label)
.mode SHmedia
.section .text..SHmedia32, "ax"
.align 2
/* This function loads 64-bit general-purpose registers from the
stack, from a memory address contained in them or from an FP
register, according to a cookie passed in r1. Its execution
time is linear on the number of registers that actually have
to be copied. See sh.h for details on the actual bit pattern.
The function to be called is passed in r0. If a 32-bit return
value is expected, the actual function will be tail-called,
otherwise the return address will be stored in r10 (that the
caller should expect to be clobbered) and the return value
will be expanded into r2/r3 upon return. */
.global GLOBAL(GCC_shcompact_call_trampoline)
FUNC(GLOBAL(GCC_shcompact_call_trampoline))
GLOBAL(GCC_shcompact_call_trampoline):
ptabs/l r0, tr0 /* Prepare to call the actual function. */
movi ((datalabel LOCAL(ct_main_table) - 31 * 2) >> 16) & 65535, r0
pt/l LOCAL(ct_loop), tr1
addz.l r1, r63, r1
shori ((datalabel LOCAL(ct_main_table) - 31 * 2)) & 65535, r0
LOCAL(ct_loop):
nsb r1, r28
shlli r28, 1, r29
ldx.w r0, r29, r30
LOCAL(ct_main_label):
ptrel/l r30, tr2
blink tr2, r63
LOCAL(ct_r2_fp): /* Copy r2 from an FP register. */
/* It must be dr0, so just do it. */
fmov.dq dr0, r2
movi 7, r30
shlli r30, 29, r31
andc r1, r31, r1
blink tr1, r63
LOCAL(ct_r3_fp): /* Copy r3 from an FP register. */
/* It is either dr0 or dr2. */
movi 7, r30
shlri r1, 26, r32
shlli r30, 26, r31
andc r1, r31, r1
fmov.dq dr0, r3
beqi/l r32, 4, tr1
fmov.dq dr2, r3
blink tr1, r63
LOCAL(ct_r4_fp): /* Copy r4 from an FP register. */
shlri r1, 23 - 3, r34
andi r34, 3 << 3, r33
addi r33, LOCAL(ct_r4_fp_copy) - datalabel LOCAL(ct_r4_fp_base), r32
LOCAL(ct_r4_fp_base):
ptrel/l r32, tr2
movi 7, r30
shlli r30, 23, r31
andc r1, r31, r1
blink tr2, r63
LOCAL(ct_r4_fp_copy):
fmov.dq dr0, r4
blink tr1, r63
fmov.dq dr2, r4
blink tr1, r63
fmov.dq dr4, r4
blink tr1, r63
LOCAL(ct_r5_fp): /* Copy r5 from an FP register. */
shlri r1, 20 - 3, r34
andi r34, 3 << 3, r33
addi r33, LOCAL(ct_r5_fp_copy) - datalabel LOCAL(ct_r5_fp_base), r32
LOCAL(ct_r5_fp_base):
ptrel/l r32, tr2
movi 7, r30
shlli r30, 20, r31
andc r1, r31, r1
blink tr2, r63
LOCAL(ct_r5_fp_copy):
fmov.dq dr0, r5
blink tr1, r63
fmov.dq dr2, r5
blink tr1, r63
fmov.dq dr4, r5
blink tr1, r63
fmov.dq dr6, r5
blink tr1, r63
LOCAL(ct_r6_fph): /* Copy r6 from a high FP register. */
/* It must be dr8. */
fmov.dq dr8, r6
movi 15, r30
shlli r30, 16, r31
andc r1, r31, r1
blink tr1, r63
LOCAL(ct_r6_fpl): /* Copy r6 from a low FP register. */
shlri r1, 16 - 3, r34
andi r34, 3 << 3, r33
addi r33, LOCAL(ct_r6_fp_copy) - datalabel LOCAL(ct_r6_fp_base), r32
LOCAL(ct_r6_fp_base):
ptrel/l r32, tr2
movi 7, r30
shlli r30, 16, r31
andc r1, r31, r1
blink tr2, r63
LOCAL(ct_r6_fp_copy):
fmov.dq dr0, r6
blink tr1, r63
fmov.dq dr2, r6
blink tr1, r63
fmov.dq dr4, r6
blink tr1, r63
fmov.dq dr6, r6
blink tr1, r63
LOCAL(ct_r7_fph): /* Copy r7 from a high FP register. */
/* It is either dr8 or dr10. */
movi 15 << 12, r31
shlri r1, 12, r32
andc r1, r31, r1
fmov.dq dr8, r7
beqi/l r32, 8, tr1
fmov.dq dr10, r7
blink tr1, r63
LOCAL(ct_r7_fpl): /* Copy r7 from a low FP register. */
shlri r1, 12 - 3, r34
andi r34, 3 << 3, r33
addi r33, LOCAL(ct_r7_fp_copy) - datalabel LOCAL(ct_r7_fp_base), r32
LOCAL(ct_r7_fp_base):
ptrel/l r32, tr2
movi 7 << 12, r31
andc r1, r31, r1
blink tr2, r63
LOCAL(ct_r7_fp_copy):
fmov.dq dr0, r7
blink tr1, r63
fmov.dq dr2, r7
blink tr1, r63
fmov.dq dr4, r7
blink tr1, r63
fmov.dq dr6, r7
blink tr1, r63
LOCAL(ct_r8_fph): /* Copy r8 from a high FP register. */
/* It is either dr8 or dr10. */
movi 15 << 8, r31
andi r1, 1 << 8, r32
andc r1, r31, r1
fmov.dq dr8, r8
beq/l r32, r63, tr1
fmov.dq dr10, r8
blink tr1, r63
LOCAL(ct_r8_fpl): /* Copy r8 from a low FP register. */
shlri r1, 8 - 3, r34
andi r34, 3 << 3, r33
addi r33, LOCAL(ct_r8_fp_copy) - datalabel LOCAL(ct_r8_fp_base), r32
LOCAL(ct_r8_fp_base):
ptrel/l r32, tr2
movi 7 << 8, r31
andc r1, r31, r1
blink tr2, r63
LOCAL(ct_r8_fp_copy):
fmov.dq dr0, r8
blink tr1, r63
fmov.dq dr2, r8
blink tr1, r63
fmov.dq dr4, r8
blink tr1, r63
fmov.dq dr6, r8
blink tr1, r63
LOCAL(ct_r9_fph): /* Copy r9 from a high FP register. */
/* It is either dr8 or dr10. */
movi 15 << 4, r31
andi r1, 1 << 4, r32
andc r1, r31, r1
fmov.dq dr8, r9
beq/l r32, r63, tr1
fmov.dq dr10, r9
blink tr1, r63
LOCAL(ct_r9_fpl): /* Copy r9 from a low FP register. */
shlri r1, 4 - 3, r34
andi r34, 3 << 3, r33
addi r33, LOCAL(ct_r9_fp_copy) - datalabel LOCAL(ct_r9_fp_base), r32
LOCAL(ct_r9_fp_base):
ptrel/l r32, tr2
movi 7 << 4, r31
andc r1, r31, r1
blink tr2, r63
LOCAL(ct_r9_fp_copy):
fmov.dq dr0, r9
blink tr1, r63
fmov.dq dr2, r9
blink tr1, r63
fmov.dq dr4, r9
blink tr1, r63
fmov.dq dr6, r9
blink tr1, r63
LOCAL(ct_r2_ld): /* Copy r2 from a memory address. */
pt/l LOCAL(ct_r2_load), tr2
movi 3, r30
shlli r30, 29, r31
and r1, r31, r32
andc r1, r31, r1
beq/l r31, r32, tr2
addi.l r2, 8, r3
ldx.q r2, r63, r2
/* Fall through. */
LOCAL(ct_r3_ld): /* Copy r3 from a memory address. */
pt/l LOCAL(ct_r3_load), tr2
movi 3, r30
shlli r30, 26, r31
and r1, r31, r32
andc r1, r31, r1
beq/l r31, r32, tr2
addi.l r3, 8, r4
ldx.q r3, r63, r3
LOCAL(ct_r4_ld): /* Copy r4 from a memory address. */
pt/l LOCAL(ct_r4_load), tr2
movi 3, r30
shlli r30, 23, r31
and r1, r31, r32
andc r1, r31, r1
beq/l r31, r32, tr2
addi.l r4, 8, r5
ldx.q r4, r63, r4
LOCAL(ct_r5_ld): /* Copy r5 from a memory address. */
pt/l LOCAL(ct_r5_load), tr2
movi 3, r30
shlli r30, 20, r31
and r1, r31, r32
andc r1, r31, r1
beq/l r31, r32, tr2
addi.l r5, 8, r6
ldx.q r5, r63, r5
LOCAL(ct_r6_ld): /* Copy r6 from a memory address. */
pt/l LOCAL(ct_r6_load), tr2
movi 3 << 16, r31
and r1, r31, r32
andc r1, r31, r1
beq/l r31, r32, tr2
addi.l r6, 8, r7
ldx.q r6, r63, r6
LOCAL(ct_r7_ld): /* Copy r7 from a memory address. */
pt/l LOCAL(ct_r7_load), tr2
movi 3 << 12, r31
and r1, r31, r32
andc r1, r31, r1
beq/l r31, r32, tr2
addi.l r7, 8, r8
ldx.q r7, r63, r7
LOCAL(ct_r8_ld): /* Copy r8 from a memory address. */
pt/l LOCAL(ct_r8_load), tr2
movi 3 << 8, r31
and r1, r31, r32
andc r1, r31, r1
beq/l r31, r32, tr2
addi.l r8, 8, r9
ldx.q r8, r63, r8
LOCAL(ct_r9_ld): /* Copy r9 from a memory address. */
pt/l LOCAL(ct_check_tramp), tr2
ldx.q r9, r63, r9
blink tr2, r63
LOCAL(ct_r2_load):
ldx.q r2, r63, r2
blink tr1, r63
LOCAL(ct_r3_load):
ldx.q r3, r63, r3
blink tr1, r63
LOCAL(ct_r4_load):
ldx.q r4, r63, r4
blink tr1, r63
LOCAL(ct_r5_load):
ldx.q r5, r63, r5
blink tr1, r63
LOCAL(ct_r6_load):
ldx.q r6, r63, r6
blink tr1, r63
LOCAL(ct_r7_load):
ldx.q r7, r63, r7
blink tr1, r63
LOCAL(ct_r8_load):
ldx.q r8, r63, r8
blink tr1, r63
LOCAL(ct_r2_pop): /* Pop r2 from the stack. */
movi 1, r30
ldx.q r15, r63, r2
shlli r30, 29, r31
addi.l r15, 8, r15
andc r1, r31, r1
blink tr1, r63
LOCAL(ct_r3_pop): /* Pop r3 from the stack. */
movi 1, r30
ldx.q r15, r63, r3
shlli r30, 26, r31
addi.l r15, 8, r15
andc r1, r31, r1
blink tr1, r63
LOCAL(ct_r4_pop): /* Pop r4 from the stack. */
movi 1, r30
ldx.q r15, r63, r4
shlli r30, 23, r31
addi.l r15, 8, r15
andc r1, r31, r1
blink tr1, r63
LOCAL(ct_r5_pop): /* Pop r5 from the stack. */
movi 1, r30
ldx.q r15, r63, r5
shlli r30, 20, r31
addi.l r15, 8, r15
andc r1, r31, r1
blink tr1, r63
LOCAL(ct_r6_pop): /* Pop r6 from the stack. */
movi 1, r30
ldx.q r15, r63, r6
shlli r30, 16, r31
addi.l r15, 8, r15
andc r1, r31, r1
blink tr1, r63
LOCAL(ct_r7_pop): /* Pop r7 from the stack. */
ldx.q r15, r63, r7
movi 1 << 12, r31
addi.l r15, 8, r15
andc r1, r31, r1
blink tr1, r63
LOCAL(ct_r8_pop): /* Pop r8 from the stack. */
ldx.q r15, r63, r8
movi 1 << 8, r31
addi.l r15, 8, r15
andc r1, r31, r1
blink tr1, r63
LOCAL(ct_pop_seq): /* Pop a sequence of registers off the stack. */
andi r1, 7 << 1, r30
movi (LOCAL(ct_end_of_pop_seq) >> 16) & 65535, r32
shlli r30, 2, r31
shori LOCAL(ct_end_of_pop_seq) & 65535, r32
sub.l r32, r31, r33
ptabs/l r33, tr2
blink tr2, r63
LOCAL(ct_start_of_pop_seq): /* Beginning of pop sequence. */
ldx.q r15, r63, r3
addi.l r15, 8, r15
ldx.q r15, r63, r4
addi.l r15, 8, r15
ldx.q r15, r63, r5
addi.l r15, 8, r15
ldx.q r15, r63, r6
addi.l r15, 8, r15
ldx.q r15, r63, r7
addi.l r15, 8, r15
ldx.q r15, r63, r8
addi.l r15, 8, r15
LOCAL(ct_r9_pop): /* Pop r9 from the stack. */
ldx.q r15, r63, r9
addi.l r15, 8, r15
LOCAL(ct_end_of_pop_seq): /* Label used to compute first pop instruction. */
LOCAL(ct_check_tramp): /* Check whether we need a trampoline. */
pt/u LOCAL(ct_ret_wide), tr2
andi r1, 1, r1
bne/u r1, r63, tr2
LOCAL(ct_call_func): /* Just branch to the function. */
blink tr0, r63
LOCAL(ct_ret_wide): /* Call the function, so that we can unpack its
64-bit return value. */
add.l r18, r63, r10
blink tr0, r18
ptabs r10, tr0
#if __LITTLE_ENDIAN__
shari r2, 32, r3
add.l r2, r63, r2
#else
add.l r2, r63, r3
shari r2, 32, r2
#endif
blink tr0, r63
ENDFUNC(GLOBAL(GCC_shcompact_call_trampoline))
#endif /* L_shcompact_call_trampoline */
#ifdef L_shcompact_return_trampoline
/* This function does the converse of the code in `ret_wide'
above. It is tail-called by SHcompact functions returning
64-bit non-floating-point values, to pack the 32-bit values in
r2 and r3 into r2. */
.mode SHmedia
.section .text..SHmedia32, "ax"
.align 2
.global GLOBAL(GCC_shcompact_return_trampoline)
HIDDEN_FUNC(GLOBAL(GCC_shcompact_return_trampoline))
GLOBAL(GCC_shcompact_return_trampoline):
ptabs/l r18, tr0
#if __LITTLE_ENDIAN__
addz.l r2, r63, r2
shlli r3, 32, r3
#else
addz.l r3, r63, r3
shlli r2, 32, r2
#endif
or r3, r2, r2
blink tr0, r63
ENDFUNC(GLOBAL(GCC_shcompact_return_trampoline))
#endif /* L_shcompact_return_trampoline */
#ifdef L_shcompact_incoming_args
.section .rodata
.align 1
LOCAL(ia_main_table):
.word 1 /* Invalid, just loop */
.word LOCAL(ia_r2_ld) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_r2_push) - datalabel LOCAL(ia_main_label)
.word 1 /* Invalid, just loop */
.word LOCAL(ia_r3_ld) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_r3_push) - datalabel LOCAL(ia_main_label)
.word 1 /* Invalid, just loop */
.word LOCAL(ia_r4_ld) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_r4_push) - datalabel LOCAL(ia_main_label)
.word 1 /* Invalid, just loop */
.word LOCAL(ia_r5_ld) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_r5_push) - datalabel LOCAL(ia_main_label)
.word 1 /* Invalid, just loop */
.word 1 /* Invalid, just loop */
.word LOCAL(ia_r6_ld) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_r6_push) - datalabel LOCAL(ia_main_label)
.word 1 /* Invalid, just loop */
.word 1 /* Invalid, just loop */
.word LOCAL(ia_r7_ld) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_r7_push) - datalabel LOCAL(ia_main_label)
.word 1 /* Invalid, just loop */
.word 1 /* Invalid, just loop */
.word LOCAL(ia_r8_ld) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_r8_push) - datalabel LOCAL(ia_main_label)
.word 1 /* Invalid, just loop */
.word 1 /* Invalid, just loop */
.word LOCAL(ia_r9_ld) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_r9_push) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_push_seq) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_push_seq) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_r9_push) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_return) - datalabel LOCAL(ia_main_label)
.word LOCAL(ia_return) - datalabel LOCAL(ia_main_label)
.mode SHmedia
.section .text..SHmedia32, "ax"
.align 2
/* This function stores 64-bit general-purpose registers back in
the stack, and loads the address in which each register
was stored into itself. The lower 32 bits of r17 hold the address
to begin storing, and the upper 32 bits of r17 hold the cookie.
Its execution time is linear on the
number of registers that actually have to be copied, and it is
optimized for structures larger than 64 bits, as opposed to
individual `long long' arguments. See sh.h for details on the
actual bit pattern. */
.global GLOBAL(GCC_shcompact_incoming_args)
FUNC(GLOBAL(GCC_shcompact_incoming_args))
GLOBAL(GCC_shcompact_incoming_args):
ptabs/l r18, tr0 /* Prepare to return. */
shlri r17, 32, r0 /* Load the cookie. */
movi ((datalabel LOCAL(ia_main_table) - 31 * 2) >> 16) & 65535, r43
pt/l LOCAL(ia_loop), tr1
add.l r17, r63, r17
shori ((datalabel LOCAL(ia_main_table) - 31 * 2)) & 65535, r43
LOCAL(ia_loop):
nsb r0, r36
shlli r36, 1, r37
ldx.w r43, r37, r38
LOCAL(ia_main_label):
ptrel/l r38, tr2
blink tr2, r63
LOCAL(ia_r2_ld): /* Store r2 and load its address. */
movi 3, r38
shlli r38, 29, r39
and r0, r39, r40
andc r0, r39, r0
stx.q r17, r63, r2
add.l r17, r63, r2
addi.l r17, 8, r17
beq/u r39, r40, tr1
LOCAL(ia_r3_ld): /* Store r3 and load its address. */
movi 3, r38
shlli r38, 26, r39
and r0, r39, r40
andc r0, r39, r0
stx.q r17, r63, r3
add.l r17, r63, r3
addi.l r17, 8, r17
beq/u r39, r40, tr1
LOCAL(ia_r4_ld): /* Store r4 and load its address. */
movi 3, r38
shlli r38, 23, r39
and r0, r39, r40
andc r0, r39, r0
stx.q r17, r63, r4
add.l r17, r63, r4
addi.l r17, 8, r17
beq/u r39, r40, tr1
LOCAL(ia_r5_ld): /* Store r5 and load its address. */
movi 3, r38
shlli r38, 20, r39
and r0, r39, r40
andc r0, r39, r0
stx.q r17, r63, r5
add.l r17, r63, r5
addi.l r17, 8, r17
beq/u r39, r40, tr1
LOCAL(ia_r6_ld): /* Store r6 and load its address. */
movi 3, r38
shlli r38, 16, r39
and r0, r39, r40
andc r0, r39, r0
stx.q r17, r63, r6
add.l r17, r63, r6
addi.l r17, 8, r17
beq/u r39, r40, tr1
LOCAL(ia_r7_ld): /* Store r7 and load its address. */
movi 3 << 12, r39
and r0, r39, r40
andc r0, r39, r0
stx.q r17, r63, r7
add.l r17, r63, r7
addi.l r17, 8, r17
beq/u r39, r40, tr1
LOCAL(ia_r8_ld): /* Store r8 and load its address. */
movi 3 << 8, r39
and r0, r39, r40
andc r0, r39, r0
stx.q r17, r63, r8
add.l r17, r63, r8
addi.l r17, 8, r17
beq/u r39, r40, tr1
LOCAL(ia_r9_ld): /* Store r9 and load its address. */
stx.q r17, r63, r9
add.l r17, r63, r9
blink tr0, r63
LOCAL(ia_r2_push): /* Push r2 onto the stack. */
movi 1, r38
shlli r38, 29, r39
andc r0, r39, r0
stx.q r17, r63, r2
addi.l r17, 8, r17
blink tr1, r63
LOCAL(ia_r3_push): /* Push r3 onto the stack. */
movi 1, r38
shlli r38, 26, r39
andc r0, r39, r0
stx.q r17, r63, r3
addi.l r17, 8, r17
blink tr1, r63
LOCAL(ia_r4_push): /* Push r4 onto the stack. */
movi 1, r38
shlli r38, 23, r39
andc r0, r39, r0
stx.q r17, r63, r4
addi.l r17, 8, r17
blink tr1, r63
LOCAL(ia_r5_push): /* Push r5 onto the stack. */
movi 1, r38
shlli r38, 20, r39
andc r0, r39, r0
stx.q r17, r63, r5
addi.l r17, 8, r17
blink tr1, r63
LOCAL(ia_r6_push): /* Push r6 onto the stack. */
movi 1, r38
shlli r38, 16, r39
andc r0, r39, r0
stx.q r17, r63, r6
addi.l r17, 8, r17
blink tr1, r63
LOCAL(ia_r7_push): /* Push r7 onto the stack. */
movi 1 << 12, r39
andc r0, r39, r0
stx.q r17, r63, r7
addi.l r17, 8, r17
blink tr1, r63
LOCAL(ia_r8_push): /* Push r8 onto the stack. */
movi 1 << 8, r39
andc r0, r39, r0
stx.q r17, r63, r8
addi.l r17, 8, r17
blink tr1, r63
LOCAL(ia_push_seq): /* Push a sequence of registers onto the stack. */
andi r0, 7 << 1, r38
movi (LOCAL(ia_end_of_push_seq) >> 16) & 65535, r40
shlli r38, 2, r39
shori LOCAL(ia_end_of_push_seq) & 65535, r40
sub.l r40, r39, r41
ptabs/l r41, tr2
blink tr2, r63
LOCAL(ia_stack_of_push_seq): /* Beginning of push sequence. */
stx.q r17, r63, r3
addi.l r17, 8, r17
stx.q r17, r63, r4
addi.l r17, 8, r17
stx.q r17, r63, r5
addi.l r17, 8, r17
stx.q r17, r63, r6
addi.l r17, 8, r17
stx.q r17, r63, r7
addi.l r17, 8, r17
stx.q r17, r63, r8
addi.l r17, 8, r17
LOCAL(ia_r9_push): /* Push r9 onto the stack. */
stx.q r17, r63, r9
LOCAL(ia_return): /* Return. */
blink tr0, r63
LOCAL(ia_end_of_push_seq): /* Label used to compute the first push instruction. */
ENDFUNC(GLOBAL(GCC_shcompact_incoming_args))
#endif /* L_shcompact_incoming_args */
#endif
#if __SH5__
#ifdef L_nested_trampoline
#if __SH5__ == 32
.section .text..SHmedia32,"ax"
#else
.text
#endif
.align 3 /* It is copied in units of 8 bytes in SHmedia mode. */
.global GLOBAL(GCC_nested_trampoline)
HIDDEN_FUNC(GLOBAL(GCC_nested_trampoline))
GLOBAL(GCC_nested_trampoline):
.mode SHmedia
ptrel/u r63, tr0
gettr tr0, r0
#if __SH5__ == 64
ld.q r0, 24, r1
#else
ld.l r0, 24, r1
#endif
ptabs/l r1, tr1
#if __SH5__ == 64
ld.q r0, 32, r1
#else
ld.l r0, 28, r1
#endif
blink tr1, r63
ENDFUNC(GLOBAL(GCC_nested_trampoline))
#endif /* L_nested_trampoline */
#endif /* __SH5__ */
#if __SH5__ == 32
#ifdef L_push_pop_shmedia_regs
.section .text..SHmedia32,"ax"
.mode SHmedia
.align 2
#ifndef __SH4_NOFPU__
.global GLOBAL(GCC_push_shmedia_regs)
FUNC(GLOBAL(GCC_push_shmedia_regs))
GLOBAL(GCC_push_shmedia_regs):
addi.l r15, -14*8, r15
fst.d r15, 13*8, dr62
fst.d r15, 12*8, dr60
fst.d r15, 11*8, dr58
fst.d r15, 10*8, dr56
fst.d r15, 9*8, dr54
fst.d r15, 8*8, dr52
fst.d r15, 7*8, dr50
fst.d r15, 6*8, dr48
fst.d r15, 5*8, dr46
fst.d r15, 4*8, dr44
fst.d r15, 3*8, dr42
fst.d r15, 2*8, dr40
fst.d r15, 1*8, dr38
fst.d r15, 0*8, dr36
#else /* ! __SH4_NOFPU__ */
.global GLOBAL(GCC_push_shmedia_regs_nofpu)
FUNC(GLOBAL(GCC_push_shmedia_regs_nofpu))
GLOBAL(GCC_push_shmedia_regs_nofpu):
#endif /* ! __SH4_NOFPU__ */
ptabs/l r18, tr0
addi.l r15, -27*8, r15
gettr tr7, r62
gettr tr6, r61
gettr tr5, r60
st.q r15, 26*8, r62
st.q r15, 25*8, r61
st.q r15, 24*8, r60
st.q r15, 23*8, r59
st.q r15, 22*8, r58
st.q r15, 21*8, r57
st.q r15, 20*8, r56
st.q r15, 19*8, r55
st.q r15, 18*8, r54
st.q r15, 17*8, r53
st.q r15, 16*8, r52
st.q r15, 15*8, r51
st.q r15, 14*8, r50
st.q r15, 13*8, r49
st.q r15, 12*8, r48
st.q r15, 11*8, r47
st.q r15, 10*8, r46
st.q r15, 9*8, r45
st.q r15, 8*8, r44
st.q r15, 7*8, r35
st.q r15, 6*8, r34
st.q r15, 5*8, r33
st.q r15, 4*8, r32
st.q r15, 3*8, r31
st.q r15, 2*8, r30
st.q r15, 1*8, r29
st.q r15, 0*8, r28
blink tr0, r63
#ifndef __SH4_NOFPU__
ENDFUNC(GLOBAL(GCC_push_shmedia_regs))
#else
ENDFUNC(GLOBAL(GCC_push_shmedia_regs_nofpu))
#endif
#ifndef __SH4_NOFPU__
.global GLOBAL(GCC_pop_shmedia_regs)
FUNC(GLOBAL(GCC_pop_shmedia_regs))
GLOBAL(GCC_pop_shmedia_regs):
pt .L0, tr1
movi 41*8, r0
fld.d r15, 40*8, dr62
fld.d r15, 39*8, dr60
fld.d r15, 38*8, dr58
fld.d r15, 37*8, dr56
fld.d r15, 36*8, dr54
fld.d r15, 35*8, dr52
fld.d r15, 34*8, dr50
fld.d r15, 33*8, dr48
fld.d r15, 32*8, dr46
fld.d r15, 31*8, dr44
fld.d r15, 30*8, dr42
fld.d r15, 29*8, dr40
fld.d r15, 28*8, dr38
fld.d r15, 27*8, dr36
blink tr1, r63
#else /* ! __SH4_NOFPU__ */
.global GLOBAL(GCC_pop_shmedia_regs_nofpu)
FUNC(GLOBAL(GCC_pop_shmedia_regs_nofpu))
GLOBAL(GCC_pop_shmedia_regs_nofpu):
#endif /* ! __SH4_NOFPU__ */
movi 27*8, r0
.L0:
ptabs r18, tr0
ld.q r15, 26*8, r62
ld.q r15, 25*8, r61
ld.q r15, 24*8, r60
ptabs r62, tr7
ptabs r61, tr6
ptabs r60, tr5
ld.q r15, 23*8, r59
ld.q r15, 22*8, r58
ld.q r15, 21*8, r57
ld.q r15, 20*8, r56
ld.q r15, 19*8, r55
ld.q r15, 18*8, r54
ld.q r15, 17*8, r53
ld.q r15, 16*8, r52
ld.q r15, 15*8, r51
ld.q r15, 14*8, r50
ld.q r15, 13*8, r49
ld.q r15, 12*8, r48
ld.q r15, 11*8, r47
ld.q r15, 10*8, r46
ld.q r15, 9*8, r45
ld.q r15, 8*8, r44
ld.q r15, 7*8, r35
ld.q r15, 6*8, r34
ld.q r15, 5*8, r33
ld.q r15, 4*8, r32
ld.q r15, 3*8, r31
ld.q r15, 2*8, r30
ld.q r15, 1*8, r29
ld.q r15, 0*8, r28
add.l r15, r0, r15
blink tr0, r63
#ifndef __SH4_NOFPU__
ENDFUNC(GLOBAL(GCC_pop_shmedia_regs))
#else
ENDFUNC(GLOBAL(GCC_pop_shmedia_regs_nofpu))
#endif
#endif /* __SH5__ == 32 */
#endif /* L_push_pop_shmedia_regs */
#ifdef L_div_table
#if __SH5__
#if defined(__pic__) && defined(__SHMEDIA__)
.global GLOBAL(sdivsi3)
FUNC(GLOBAL(sdivsi3))
#if __SH5__ == 32
.section .text..SHmedia32,"ax"
#else
.text
#endif
#if 0
/* ??? FIXME: Presumably due to a linker bug, exporting data symbols
in a text section does not work (at least for shared libraries):
the linker sets the LSB of the address as if this was SHmedia code. */
#define TEXT_DATA_BUG
#endif
.align 2
// inputs: r4,r5
// clobbered: r1,r18,r19,r20,r21,r25,tr0
// result in r0
.global GLOBAL(sdivsi3)
GLOBAL(sdivsi3):
#ifdef TEXT_DATA_BUG
ptb datalabel Local_div_table,tr0
#else
ptb GLOBAL(div_table_internal),tr0
#endif
nsb r5, r1
shlld r5, r1, r25 // normalize; [-2 ..1, 1..2) in s2.62
shari r25, 58, r21 // extract 5(6) bit index (s2.4 with hole -1..1)
/* bubble */
gettr tr0,r20
ldx.ub r20, r21, r19 // u0.8
shari r25, 32, r25 // normalize to s2.30
shlli r21, 1, r21
muls.l r25, r19, r19 // s2.38
ldx.w r20, r21, r21 // s2.14
ptabs r18, tr0
shari r19, 24, r19 // truncate to s2.14
sub r21, r19, r19 // some 11 bit inverse in s1.14
muls.l r19, r19, r21 // u0.28
sub r63, r1, r1
addi r1, 92, r1
muls.l r25, r21, r18 // s2.58
shlli r19, 45, r19 // multiply by two and convert to s2.58
/* bubble */
sub r19, r18, r18
shari r18, 28, r18 // some 22 bit inverse in s1.30
muls.l r18, r25, r0 // s2.60
muls.l r18, r4, r25 // s32.30
/* bubble */
shari r0, 16, r19 // s-16.44
muls.l r19, r18, r19 // s-16.74
shari r25, 63, r0
shari r4, 14, r18 // s19.-14
shari r19, 30, r19 // s-16.44
muls.l r19, r18, r19 // s15.30
xor r21, r0, r21 // You could also use the constant 1 << 27.
add r21, r25, r21
sub r21, r19, r21
shard r21, r1, r21
sub r21, r0, r0
blink tr0, r63
ENDFUNC(GLOBAL(sdivsi3))
/* This table has been generated by divtab.c .
Defects for bias -330:
Max defect: 6.081536e-07 at -1.000000e+00
Min defect: 2.849516e-08 at 1.030651e+00
Max 2nd step defect: 9.606539e-12 at -1.000000e+00
Min 2nd step defect: 0.000000e+00 at 0.000000e+00
Defect at 1: 1.238659e-07
Defect at -2: 1.061708e-07 */
#else /* ! __pic__ || ! __SHMEDIA__ */
.section .rodata
#endif /* __pic__ */
#if defined(TEXT_DATA_BUG) && defined(__pic__) && defined(__SHMEDIA__)
.balign 2
.type Local_div_table,@object
.size Local_div_table,128
/* negative division constants */
.word -16638
.word -17135
.word -17737
.word -18433
.word -19103
.word -19751
.word -20583
.word -21383
.word -22343
.word -23353
.word -24407
.word -25582
.word -26863
.word -28382
.word -29965
.word -31800
/* negative division factors */
.byte 66
.byte 70
.byte 75
.byte 81
.byte 87
.byte 93
.byte 101
.byte 109
.byte 119
.byte 130
.byte 142
.byte 156
.byte 172
.byte 192
.byte 214
.byte 241
.skip 16
Local_div_table:
.skip 16
/* positive division factors */
.byte 241
.byte 214
.byte 192
.byte 172
.byte 156
.byte 142
.byte 130
.byte 119
.byte 109
.byte 101
.byte 93
.byte 87
.byte 81
.byte 75
.byte 70
.byte 66
/* positive division constants */
.word 31801
.word 29966
.word 28383
.word 26864
.word 25583
.word 24408
.word 23354
.word 22344
.word 21384
.word 20584
.word 19752
.word 19104
.word 18434
.word 17738
.word 17136
.word 16639
.section .rodata
#endif /* TEXT_DATA_BUG */
.balign 2
.type GLOBAL(div_table),@object
.size GLOBAL(div_table),128
/* negative division constants */
.word -16638
.word -17135
.word -17737
.word -18433
.word -19103
.word -19751
.word -20583
.word -21383
.word -22343
.word -23353
.word -24407
.word -25582
.word -26863
.word -28382
.word -29965
.word -31800
/* negative division factors */
.byte 66
.byte 70
.byte 75
.byte 81
.byte 87
.byte 93
.byte 101
.byte 109
.byte 119
.byte 130
.byte 142
.byte 156
.byte 172
.byte 192
.byte 214
.byte 241
.skip 16
.global GLOBAL(div_table)
GLOBAL(div_table):
HIDDEN_ALIAS(div_table_internal,div_table)
.skip 16
/* positive division factors */
.byte 241
.byte 214
.byte 192
.byte 172
.byte 156
.byte 142
.byte 130
.byte 119
.byte 109
.byte 101
.byte 93
.byte 87
.byte 81
.byte 75
.byte 70
.byte 66
/* positive division constants */
.word 31801
.word 29966
.word 28383
.word 26864
.word 25583
.word 24408
.word 23354
.word 22344
.word 21384
.word 20584
.word 19752
.word 19104
.word 18434
.word 17738
.word 17136
.word 16639
#elif defined (__SH2A__) || defined (__SH3__) || defined (__SH3E__) || defined (__SH4__) || defined (__SH4_SINGLE__) || defined (__SH4_SINGLE_ONLY__) || defined (__SH4_NOFPU__)
/* This code uses shld, thus is not suitable for SH1 / SH2. */
/* Signed / unsigned division without use of FPU, optimized for SH4.
Uses a lookup table for divisors in the range -128 .. +128, and
div1 with case distinction for larger divisors in three more ranges.
The code is lumped together with the table to allow the use of mova. */
#ifdef __LITTLE_ENDIAN__
#define L_LSB 0
#define L_LSWMSB 1
#define L_MSWLSB 2
#else
#define L_LSB 3
#define L_LSWMSB 2
#define L_MSWLSB 1
#endif
.balign 4
.global GLOBAL(udivsi3_i4i)
FUNC(GLOBAL(udivsi3_i4i))
GLOBAL(udivsi3_i4i):
mov.w LOCAL(c128_w), r1
div0u
mov r4,r0
shlr8 r0
cmp/hi r1,r5
extu.w r5,r1
bf LOCAL(udiv_le128)
cmp/eq r5,r1
bf LOCAL(udiv_ge64k)
shlr r0
mov r5,r1
shll16 r5
mov.l r4,@-r15
div1 r5,r0
mov.l r1,@-r15
div1 r5,r0
div1 r5,r0
bra LOCAL(udiv_25)
div1 r5,r0
LOCAL(div_le128):
mova LOCAL(div_table_ix),r0
bra LOCAL(div_le128_2)
mov.b @(r0,r5),r1
LOCAL(udiv_le128):
mov.l r4,@-r15
mova LOCAL(div_table_ix),r0
mov.b @(r0,r5),r1
mov.l r5,@-r15
LOCAL(div_le128_2):
mova LOCAL(div_table_inv),r0
mov.l @(r0,r1),r1
mov r5,r0
tst #0xfe,r0
mova LOCAL(div_table_clz),r0
dmulu.l r1,r4
mov.b @(r0,r5),r1
bt/s LOCAL(div_by_1)
mov r4,r0
mov.l @r15+,r5
sts mach,r0
/* clrt */
addc r4,r0
mov.l @r15+,r4
rotcr r0
rts
shld r1,r0
LOCAL(div_by_1_neg):
neg r4,r0
LOCAL(div_by_1):
mov.l @r15+,r5
rts
mov.l @r15+,r4
LOCAL(div_ge64k):
bt/s LOCAL(div_r8)
div0u
shll8 r5
bra LOCAL(div_ge64k_2)
div1 r5,r0
LOCAL(udiv_ge64k):
cmp/hi r0,r5
mov r5,r1
bt LOCAL(udiv_r8)
shll8 r5
mov.l r4,@-r15
div1 r5,r0
mov.l r1,@-r15
LOCAL(div_ge64k_2):
div1 r5,r0
mov.l LOCAL(zero_l),r1
.rept 4
div1 r5,r0
.endr
mov.l r1,@-r15
div1 r5,r0
mov.w LOCAL(m256_w),r1
div1 r5,r0
mov.b r0,@(L_LSWMSB,r15)
xor r4,r0
and r1,r0
bra LOCAL(div_ge64k_end)
xor r4,r0
LOCAL(div_r8):
shll16 r4
bra LOCAL(div_r8_2)
shll8 r4
LOCAL(udiv_r8):
mov.l r4,@-r15
shll16 r4
clrt
shll8 r4
mov.l r5,@-r15
LOCAL(div_r8_2):
rotcl r4
mov r0,r1
div1 r5,r1
mov r4,r0
rotcl r0
mov r5,r4
div1 r5,r1
.rept 5
rotcl r0; div1 r5,r1
.endr
rotcl r0
mov.l @r15+,r5
div1 r4,r1
mov.l @r15+,r4
rts
rotcl r0
ENDFUNC(GLOBAL(udivsi3_i4i))
.global GLOBAL(sdivsi3_i4i)
FUNC(GLOBAL(sdivsi3_i4i))
/* This is link-compatible with a GLOBAL(sdivsi3) call,
but we effectively clobber only r1. */
GLOBAL(sdivsi3_i4i):
mov.l r4,@-r15
cmp/pz r5
mov.w LOCAL(c128_w), r1
bt/s LOCAL(pos_divisor)
cmp/pz r4
mov.l r5,@-r15
neg r5,r5
bt/s LOCAL(neg_result)
cmp/hi r1,r5
neg r4,r4
LOCAL(pos_result):
extu.w r5,r0
bf LOCAL(div_le128)
cmp/eq r5,r0
mov r4,r0
shlr8 r0
bf/s LOCAL(div_ge64k)
cmp/hi r0,r5
div0u
shll16 r5
div1 r5,r0
div1 r5,r0
div1 r5,r0
LOCAL(udiv_25):
mov.l LOCAL(zero_l),r1
div1 r5,r0
div1 r5,r0
mov.l r1,@-r15
.rept 3
div1 r5,r0
.endr
mov.b r0,@(L_MSWLSB,r15)
xtrct r4,r0
swap.w r0,r0
.rept 8
div1 r5,r0
.endr
mov.b r0,@(L_LSWMSB,r15)
LOCAL(div_ge64k_end):
.rept 8
div1 r5,r0
.endr
mov.l @r15+,r4 ! zero-extension and swap using LS unit.
extu.b r0,r0
mov.l @r15+,r5
or r4,r0
mov.l @r15+,r4
rts
rotcl r0
LOCAL(div_le128_neg):
tst #0xfe,r0
mova LOCAL(div_table_ix),r0
mov.b @(r0,r5),r1
mova LOCAL(div_table_inv),r0
bt/s LOCAL(div_by_1_neg)
mov.l @(r0,r1),r1
mova LOCAL(div_table_clz),r0
dmulu.l r1,r4
mov.b @(r0,r5),r1
mov.l @r15+,r5
sts mach,r0
/* clrt */
addc r4,r0
mov.l @r15+,r4
rotcr r0
shld r1,r0
rts
neg r0,r0
LOCAL(pos_divisor):
mov.l r5,@-r15
bt/s LOCAL(pos_result)
cmp/hi r1,r5
neg r4,r4
LOCAL(neg_result):
extu.w r5,r0
bf LOCAL(div_le128_neg)
cmp/eq r5,r0
mov r4,r0
shlr8 r0
bf/s LOCAL(div_ge64k_neg)
cmp/hi r0,r5
div0u
mov.l LOCAL(zero_l),r1
shll16 r5
div1 r5,r0
mov.l r1,@-r15
.rept 7
div1 r5,r0
.endr
mov.b r0,@(L_MSWLSB,r15)
xtrct r4,r0
swap.w r0,r0
.rept 8
div1 r5,r0
.endr
mov.b r0,@(L_LSWMSB,r15)
LOCAL(div_ge64k_neg_end):
.rept 8
div1 r5,r0
.endr
mov.l @r15+,r4 ! zero-extension and swap using LS unit.
extu.b r0,r1
mov.l @r15+,r5
or r4,r1
LOCAL(div_r8_neg_end):
mov.l @r15+,r4
rotcl r1
rts
neg r1,r0
LOCAL(div_ge64k_neg):
bt/s LOCAL(div_r8_neg)
div0u
shll8 r5
mov.l LOCAL(zero_l),r1
.rept 6
div1 r5,r0
.endr
mov.l r1,@-r15
div1 r5,r0
mov.w LOCAL(m256_w),r1
div1 r5,r0
mov.b r0,@(L_LSWMSB,r15)
xor r4,r0
and r1,r0
bra LOCAL(div_ge64k_neg_end)
xor r4,r0
LOCAL(c128_w):
.word 128
LOCAL(div_r8_neg):
clrt
shll16 r4
mov r4,r1
shll8 r1
mov r5,r4
.rept 7
rotcl r1; div1 r5,r0
.endr
mov.l @r15+,r5
rotcl r1
bra LOCAL(div_r8_neg_end)
div1 r4,r0
LOCAL(m256_w):
.word 0xff00
/* This table has been generated by divtab-sh4.c. */
.balign 4
LOCAL(div_table_clz):
.byte 0
.byte 1
.byte 0
.byte -1
.byte -1
.byte -2
.byte -2
.byte -2
.byte -2
.byte -3
.byte -3
.byte -3
.byte -3
.byte -3
.byte -3
.byte -3
.byte -3
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -4
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -5
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
.byte -6
/* Lookup table translating positive divisor to index into table of
normalized inverse. N.B. the '0' entry is also the last entry of the
previous table, and causes an unaligned access for division by zero. */
LOCAL(div_table_ix):
.byte -6
.byte -128
.byte -128
.byte 0
.byte -128
.byte -64
.byte 0
.byte 64
.byte -128
.byte -96
.byte -64
.byte -32
.byte 0
.byte 32
.byte 64
.byte 96
.byte -128
.byte -112
.byte -96
.byte -80
.byte -64
.byte -48
.byte -32
.byte -16
.byte 0
.byte 16
.byte 32
.byte 48
.byte 64
.byte 80
.byte 96
.byte 112
.byte -128
.byte -120
.byte -112
.byte -104
.byte -96
.byte -88
.byte -80
.byte -72
.byte -64
.byte -56
.byte -48
.byte -40
.byte -32
.byte -24
.byte -16
.byte -8
.byte 0
.byte 8
.byte 16
.byte 24
.byte 32
.byte 40
.byte 48
.byte 56
.byte 64
.byte 72
.byte 80
.byte 88
.byte 96
.byte 104
.byte 112
.byte 120
.byte -128
.byte -124
.byte -120
.byte -116
.byte -112
.byte -108
.byte -104
.byte -100
.byte -96
.byte -92
.byte -88
.byte -84
.byte -80
.byte -76
.byte -72
.byte -68
.byte -64
.byte -60
.byte -56
.byte -52
.byte -48
.byte -44
.byte -40
.byte -36
.byte -32
.byte -28
.byte -24
.byte -20
.byte -16
.byte -12
.byte -8
.byte -4
.byte 0
.byte 4
.byte 8
.byte 12
.byte 16
.byte 20
.byte 24
.byte 28
.byte 32
.byte 36
.byte 40
.byte 44
.byte 48
.byte 52
.byte 56
.byte 60
.byte 64
.byte 68
.byte 72
.byte 76
.byte 80
.byte 84
.byte 88
.byte 92
.byte 96
.byte 100
.byte 104
.byte 108
.byte 112
.byte 116
.byte 120
.byte 124
.byte -128
/* 1/64 .. 1/127, normalized. There is an implicit leading 1 in bit 32. */
.balign 4
LOCAL(zero_l):
.long 0x0
.long 0xF81F81F9
.long 0xF07C1F08
.long 0xE9131AC0
.long 0xE1E1E1E2
.long 0xDAE6076C
.long 0xD41D41D5
.long 0xCD856891
.long 0xC71C71C8
.long 0xC0E07039
.long 0xBACF914D
.long 0xB4E81B4F
.long 0xAF286BCB
.long 0xA98EF607
.long 0xA41A41A5
.long 0x9EC8E952
.long 0x9999999A
.long 0x948B0FCE
.long 0x8F9C18FA
.long 0x8ACB90F7
.long 0x86186187
.long 0x81818182
.long 0x7D05F418
.long 0x78A4C818
.long 0x745D1746
.long 0x702E05C1
.long 0x6C16C16D
.long 0x68168169
.long 0x642C8591
.long 0x60581606
.long 0x5C9882BA
.long 0x58ED2309
LOCAL(div_table_inv):
.long 0x55555556
.long 0x51D07EAF
.long 0x4E5E0A73
.long 0x4AFD6A06
.long 0x47AE147B
.long 0x446F8657
.long 0x41414142
.long 0x3E22CBCF
.long 0x3B13B13C
.long 0x38138139
.long 0x3521CFB3
.long 0x323E34A3
.long 0x2F684BDB
.long 0x2C9FB4D9
.long 0x29E4129F
.long 0x27350B89
.long 0x24924925
.long 0x21FB7813
.long 0x1F7047DD
.long 0x1CF06ADB
.long 0x1A7B9612
.long 0x18118119
.long 0x15B1E5F8
.long 0x135C8114
.long 0x11111112
.long 0xECF56BF
.long 0xC9714FC
.long 0xA6810A7
.long 0x8421085
.long 0x624DD30
.long 0x4104105
.long 0x2040811
/* maximum error: 0.987342 scaled: 0.921875*/
ENDFUNC(GLOBAL(sdivsi3_i4i))
#endif /* SH3 / SH4 */
#endif /* L_div_table */
#ifdef L_udiv_qrnnd_16
#if !__SHMEDIA__
HIDDEN_FUNC(GLOBAL(udiv_qrnnd_16))
/* r0: rn r1: qn */ /* r0: n1 r4: n0 r5: d r6: d1 */ /* r2: __m */
/* n1 < d, but n1 might be larger than d1. */
.global GLOBAL(udiv_qrnnd_16)
.balign 8
GLOBAL(udiv_qrnnd_16):
div0u
cmp/hi r6,r0
bt .Lots
.rept 16
div1 r6,r0
.endr
extu.w r0,r1
bt 0f
add r6,r0
0: rotcl r1
mulu.w r1,r5
xtrct r4,r0
swap.w r0,r0
sts macl,r2
cmp/hs r2,r0
sub r2,r0
bt 0f
addc r5,r0
add #-1,r1
bt 0f
1: add #-1,r1
rts
add r5,r0
.balign 8
.Lots:
sub r5,r0
swap.w r4,r1
xtrct r0,r1
clrt
mov r1,r0
addc r5,r0
mov #-1,r1
SL1(bf, 1b,
shlr16 r1)
0: rts
nop
ENDFUNC(GLOBAL(udiv_qrnnd_16))
#endif /* !__SHMEDIA__ */
#endif /* L_udiv_qrnnd_16 */
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