5624e564d2
From-SVN: r219188
536 lines
8.4 KiB
ArmAsm
536 lines
8.4 KiB
ArmAsm
/* SImode div/mod functions for the GCC support library for the Renesas RL78 processors.
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Copyright (C) 2012-2015 Free Software Foundation, Inc.
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Contributed by Red Hat.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published
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by the Free Software Foundation; either version 3, or (at your
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option) any later version.
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GCC is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
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License for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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#include "vregs.h"
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.macro MAKE_GENERIC which,need_result
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.if \need_result
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quot = r8
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num = r12
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den = r16
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bit = r20
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.else
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num = r8
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quot = r12
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den = r16
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bit = r20
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.endif
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quotH = quot+2
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quotL = quot
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quotB0 = quot
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quotB1 = quot+1
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quotB2 = quot+2
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quotB3 = quot+3
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numH = num+2
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numL = num
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numB0 = num
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numB1 = num+1
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numB2 = num+2
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numB3 = num+3
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#define denH bc
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denL = den
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denB0 = den
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denB1 = den+1
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#define denB2 c
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#define denB3 b
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bitH = bit+2
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bitL = bit
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bitB0 = bit
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bitB1 = bit+1
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bitB2 = bit+2
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bitB3 = bit+3
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START_FUNC __generic_sidivmod\which
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num_lt_den\which:
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.if \need_result
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movw r8, #0
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movw r10, #0
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.else
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movw ax, [sp+8]
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movw r8, ax
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movw ax, [sp+10]
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movw r10, ax
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.endif
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ret
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shift_den_bit16\which:
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movw ax, denL
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movw denH, ax
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movw denL, #0
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.if \need_result
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movw ax, bitL
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movw bitH, ax
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movw bitL, #0
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.else
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mov a, bit
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add a, #16
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mov bit, a
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.endif
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br $shift_den_bit\which
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;; These routines leave DE alone - the signed functions use DE
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;; to store sign information that must remain intact
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.if \need_result
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.global __generic_sidiv
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__generic_sidiv:
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.else
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.global __generic_simod
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__generic_simod:
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.endif
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;; (quot,rem) = 8[sp] /% 12[sp]
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movw hl, sp
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movw ax, [hl+14] ; denH
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cmpw ax, [hl+10] ; numH
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movw ax, [hl+12] ; denL
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sknz
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cmpw ax, [hl+8] ; numL
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bh $num_lt_den\which
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#ifdef __RL78_G10__
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movw ax, denL
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push ax
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movw ax, bitL
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push ax
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movw ax, bitH
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push ax
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#else
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sel rb2
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push ax ; denL
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; push bc ; denH
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push de ; bitL
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push hl ; bitH - stored in BC
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sel rb0
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#endif
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;; (quot,rem) = 16[sp] /% 20[sp]
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;; copy numerator
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movw ax, [hl+8]
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movw numL, ax
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movw ax, [hl+10]
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movw numH, ax
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;; copy denomonator
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movw ax, [hl+12]
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movw denL, ax
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movw ax, [hl+14]
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movw denH, ax
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movw ax, denL
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or a, denB2
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or a, denB3 ; not x
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cmpw ax, #0
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bnz $den_not_zero\which
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movw numL, #0
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movw numH, #0
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ret
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den_not_zero\which:
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.if \need_result
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;; zero out quot
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movw quotL, #0
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movw quotH, #0
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.endif
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;; initialize bit to 1
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movw bitL, #1
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movw bitH, #0
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; while (den < num && !(den & (1L << BITS_MINUS_1)))
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.if 1
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;; see if we can short-circuit a bunch of shifts
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movw ax, denH
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cmpw ax, #0
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bnz $shift_den_bit\which
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movw ax, denL
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cmpw ax, numH
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bnh $shift_den_bit16\which
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.endif
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shift_den_bit\which:
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movw ax, denH
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mov1 cy,a.7
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bc $enter_main_loop\which
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cmpw ax, numH
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movw ax, denL ; we re-use this below
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sknz
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cmpw ax, numL
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bh $enter_main_loop\which
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;; den <<= 1
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; movw ax, denL ; already has it from the cmpw above
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shlw ax, 1
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movw denL, ax
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; movw ax, denH
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rolwc denH, 1
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; movw denH, ax
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;; bit <<= 1
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.if \need_result
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movw ax, bitL
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shlw ax, 1
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movw bitL, ax
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movw ax, bitH
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rolwc ax, 1
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movw bitH, ax
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.else
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;; if we don't need to compute the quotent, we don't need an
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;; actual bit *mask*, we just need to keep track of which bit
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inc bitB0
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.endif
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br $shift_den_bit\which
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;; while (bit)
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main_loop\which:
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;; if (num >= den) (cmp den > num)
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movw ax, numH
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cmpw ax, denH
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movw ax, numL
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sknz
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cmpw ax, denL
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skz
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bnh $next_loop\which
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;; num -= den
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; movw ax, numL ; already has it from the cmpw above
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subw ax, denL
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movw numL, ax
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movw ax, numH
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sknc
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decw ax
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subw ax, denH
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movw numH, ax
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.if \need_result
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;; res |= bit
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mov a, quotB0
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or a, bitB0
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mov quotB0, a
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mov a, quotB1
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or a, bitB1
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mov quotB1, a
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mov a, quotB2
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or a, bitB2
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mov quotB2, a
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mov a, quotB3
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or a, bitB3
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mov quotB3, a
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.endif
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next_loop\which:
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;; den >>= 1
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movw ax, denH
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shrw ax, 1
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movw denH, ax
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mov a, denB1
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rorc a, 1
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mov denB1, a
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mov a, denB0
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rorc a, 1
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mov denB0, a
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;; bit >>= 1
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.if \need_result
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movw ax, bitH
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shrw ax, 1
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movw bitH, ax
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mov a, bitB1
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rorc a, 1
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mov bitB1, a
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mov a, bitB0
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rorc a, 1
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mov bitB0, a
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.else
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dec bitB0
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.endif
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enter_main_loop\which:
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.if \need_result
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movw ax, bitH
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cmpw ax, #0
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bnz $main_loop\which
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.else
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cmp bitB0, #15
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bh $main_loop\which
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.endif
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;; bit is HImode now; check others
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movw ax, numH ; numerator
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cmpw ax, #0
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bnz $bit_high_set\which
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movw ax, denH ; denominator
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cmpw ax, #0
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bz $switch_to_himode\which
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bit_high_set\which:
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.if \need_result
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movw ax, bitL
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cmpw ax, #0
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.else
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cmp0 bitB0
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.endif
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bnz $main_loop\which
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switch_to_himode\which:
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.if \need_result
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movw ax, bitL
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cmpw ax, #0
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.else
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cmp0 bitB0
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.endif
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bz $main_loop_done_himode\which
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;; From here on in, r22, r14, and r18 are all zero
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;; while (bit)
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main_loop_himode\which:
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;; if (num >= den) (cmp den > num)
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movw ax, denL
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cmpw ax, numL
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bh $next_loop_himode\which
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;; num -= den
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movw ax, numL
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subw ax, denL
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movw numL, ax
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movw ax, numH
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sknc
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decw ax
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subw ax, denH
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movw numH, ax
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.if \need_result
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;; res |= bit
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mov a, quotB0
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or a, bitB0
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mov quotB0, a
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mov a, quotB1
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or a, bitB1
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mov quotB1, a
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.endif
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next_loop_himode\which:
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;; den >>= 1
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movw ax, denL
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shrw ax, 1
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movw denL, ax
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.if \need_result
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;; bit >>= 1
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movw ax, bitL
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shrw ax, 1
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movw bitL, ax
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.else
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dec bitB0
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.endif
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.if \need_result
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movw ax, bitL
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cmpw ax, #0
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.else
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cmp0 bitB0
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.endif
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bnz $main_loop_himode\which
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main_loop_done_himode\which:
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#ifdef __RL78_G10__
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pop ax
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movw bitH, ax
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pop ax
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movw bitL, ax
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pop ax
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movw denL, ax
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#else
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sel rb2
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pop hl ; bitH - stored in BC
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pop de ; bitL
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; pop bc ; denH
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pop ax ; denL
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sel rb0
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#endif
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ret
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END_FUNC __generic_sidivmod\which
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.endm
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;----------------------------------------------------------------------
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MAKE_GENERIC _d 1
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MAKE_GENERIC _m 0
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;----------------------------------------------------------------------
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START_FUNC ___udivsi3
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;; r8 = 4[sp] / 8[sp]
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call $!__generic_sidiv
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ret
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END_FUNC ___udivsi3
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START_FUNC ___umodsi3
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;; r8 = 4[sp] % 8[sp]
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call $!__generic_simod
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ret
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END_FUNC ___umodsi3
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;----------------------------------------------------------------------
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.macro NEG_AX
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movw hl, ax
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movw ax, #0
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subw ax, [hl]
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movw [hl], ax
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movw ax, #0
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sknc
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decw ax
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subw ax, [hl+2]
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movw [hl+2], ax
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.endm
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;----------------------------------------------------------------------
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START_FUNC ___divsi3
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;; r8 = 4[sp] / 8[sp]
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movw de, #0
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mov a, [sp+7]
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mov1 cy, a.7
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bc $div_signed_num
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mov a, [sp+11]
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mov1 cy, a.7
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bc $div_signed_den
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call $!__generic_sidiv
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ret
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div_signed_num:
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;; neg [sp+4]
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movw ax, sp
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addw ax, #4
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NEG_AX
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mov d, #1
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mov a, [sp+11]
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mov1 cy, a.7
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bnc $div_unsigned_den
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div_signed_den:
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;; neg [sp+8]
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movw ax, sp
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addw ax, #8
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NEG_AX
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mov e, #1
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div_unsigned_den:
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call $!__generic_sidiv
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mov a, d
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cmp0 a
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bz $div_skip_restore_num
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;; We have to restore the numerator [sp+4]
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movw ax, sp
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addw ax, #4
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NEG_AX
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mov a, d
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div_skip_restore_num:
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xor a, e
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bz $div_no_neg
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movw ax, #r8
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NEG_AX
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div_no_neg:
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mov a, e
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cmp0 a
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bz $div_skip_restore_den
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;; We have to restore the denominator [sp+8]
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movw ax, sp
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addw ax, #8
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NEG_AX
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div_skip_restore_den:
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ret
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END_FUNC ___divsi3
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START_FUNC ___modsi3
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;; r8 = 4[sp] % 8[sp]
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movw de, #0
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mov a, [sp+7]
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mov1 cy, a.7
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bc $mod_signed_num
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mov a, [sp+11]
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mov1 cy, a.7
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bc $mod_signed_den
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call $!__generic_simod
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ret
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mod_signed_num:
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;; neg [sp+4]
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movw ax, sp
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addw ax, #4
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NEG_AX
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mov d, #1
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mov a, [sp+11]
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mov1 cy, a.7
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bnc $mod_unsigned_den
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mod_signed_den:
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;; neg [sp+8]
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movw ax, sp
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addw ax, #8
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NEG_AX
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mov e, #1
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mod_unsigned_den:
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call $!__generic_simod
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mov a, d
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cmp0 a
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bz $mod_no_neg
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movw ax, #r8
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NEG_AX
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;; We have to restore [sp+4] as well.
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movw ax, sp
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addw ax, #4
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NEG_AX
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mod_no_neg:
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.if 1
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mov a, e
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cmp0 a
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bz $mod_skip_restore_den
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movw ax, sp
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addw ax, #8
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NEG_AX
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mod_skip_restore_den:
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.endif
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ret
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END_FUNC ___modsi3
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