tegrakernel/kernel/kernel-4.9/arch/m68k/math-emu/fp_cond.S

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2022-02-16 09:13:02 -06:00
/*
* fp_cond.S
*
* Copyright Roman Zippel, 1997. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, and the entire permission notice in its entirety,
* including the disclaimer of warranties.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote
* products derived from this software without specific prior
* written permission.
*
* ALTERNATIVELY, this product may be distributed under the terms of
* the GNU General Public License, in which case the provisions of the GPL are
* required INSTEAD OF the above restrictions. (This clause is
* necessary due to a potential bad interaction between the GPL and
* the restrictions contained in a BSD-style copyright.)
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
* OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "fp_emu.h"
#include "fp_decode.h"
.globl fp_fscc, fp_fbccw, fp_fbccl
#ifdef FPU_EMU_DEBUG
fp_fnop:
printf PDECODE,"fnop\n"
jra fp_end
#else
#define fp_fnop fp_end
#endif
fp_fbccw:
tst.w %d2
jeq fp_fnop
printf PDECODE,"fbccw "
fp_get_pc %a0
lea (-2,%a0,%d2.w),%a0
jra 1f
fp_fbccl:
printf PDECODE,"fbccl "
fp_get_pc %a0
move.l %d2,%d0
swap %d0
fp_get_instr_word %d0,fp_err_ua1
lea (-2,%a0,%d0.l),%a0
1: printf PDECODE,"%x",1,%a0
move.l %d2,%d0
swap %d0
jsr fp_compute_cond
tst.l %d0
jeq 1f
fp_put_pc %a0,1
1: printf PDECODE,"\n"
jra fp_end
fp_fdbcc:
printf PDECODE,"fdbcc "
fp_get_pc %a1 | calculate new pc
fp_get_instr_word %d0,fp_err_ua1
add.w %d0,%a1
fp_decode_addr_reg
printf PDECODE,"d%d,%x\n",2,%d0,%a1
swap %d1 | test condition in %d1
tst.w %d1
jne 2f
move.l %d0,%d1
jsr fp_get_data_reg
subq.w #1,%d0
jcs 1f
fp_put_pc %a1,1
1: jsr fp_put_data_reg
2: jra fp_end
| set flags for decode macros for fs<cc>
do_fscc=1
do_no_pc_mode=1
fp_fscc:
printf PDECODE,"fscc "
move.l %d2,%d0
jsr fp_compute_cond
move.w %d0,%d1
swap %d1
| decode addressing mode
fp_decode_addr_mode
.long fp_data, fp_fdbcc
.long fp_indirect, fp_postinc
.long fp_predecr, fp_disp16
.long fp_extmode0, fp_extmode1
| addressing mode: data register direct
fp_data:
fp_mode_data_direct
move.w %d0,%d1 | save register nr
jsr fp_get_data_reg
swap %d1
move.b %d1,%d0
swap %d1
jsr fp_put_data_reg
printf PDECODE,"\n"
jra fp_end
fp_indirect:
fp_mode_addr_indirect
jra fp_do_scc
fp_postinc:
fp_mode_addr_indirect_postinc
jra fp_do_scc
fp_predecr:
fp_mode_addr_indirect_predec
jra fp_do_scc
fp_disp16:
fp_mode_addr_indirect_disp16
jra fp_do_scc
fp_extmode0:
fp_mode_addr_indirect_extmode0
jra fp_do_scc
fp_extmode1:
bfextu %d2{#13,#3},%d0
jmp ([0f:w,%pc,%d0*4])
.align 4
0:
.long fp_absolute_short, fp_absolute_long
.long fp_ill, fp_ill | NOTE: jump here to ftrap.x
.long fp_ill, fp_ill
.long fp_ill, fp_ill
fp_absolute_short:
fp_mode_abs_short
jra fp_do_scc
fp_absolute_long:
fp_mode_abs_long
| jra fp_do_scc
fp_do_scc:
swap %d1
putuser.b %d1,(%a0),fp_err_ua1,%a0
printf PDECODE,"\n"
jra fp_end
#define tst_NAN btst #24,%d1
#define tst_Z btst #26,%d1
#define tst_N btst #27,%d1
fp_compute_cond:
move.l (FPD_FPSR,FPDATA),%d1
btst #4,%d0
jeq 1f
tst_NAN
jeq 1f
bset #15,%d1
bset #7,%d1
move.l %d1,(FPD_FPSR,FPDATA)
1: and.w #0xf,%d0
jmp ([0f:w,%pc,%d0.w*4])
.align 4
0:
.long fp_f , fp_eq , fp_ogt, fp_oge
.long fp_olt, fp_ole, fp_ogl, fp_or
.long fp_un , fp_ueq, fp_ugt, fp_uge
.long fp_ult, fp_ule, fp_ne , fp_t
fp_f:
moveq #0,%d0
rts
fp_eq:
moveq #0,%d0
tst_Z
jeq 1f
moveq #-1,%d0
1: rts
fp_ogt:
moveq #0,%d0
tst_NAN
jne 1f
tst_Z
jne 1f
tst_N
jne 1f
moveq #-1,%d0
1: rts
fp_oge:
moveq #-1,%d0
tst_Z
jne 2f
tst_NAN
jne 1f
tst_N
jeq 2f
1: moveq #0,%d0
2: rts
fp_olt:
moveq #0,%d0
tst_NAN
jne 1f
tst_Z
jne 1f
tst_N
jeq 1f
moveq #-1,%d0
1: rts
fp_ole:
moveq #-1,%d0
tst_Z
jne 2f
tst_NAN
jne 1f
tst_N
jne 2f
1: moveq #0,%d0
2: rts
fp_ogl:
moveq #0,%d0
tst_NAN
jne 1f
tst_Z
jne 1f
moveq #-1,%d0
1: rts
fp_or:
moveq #0,%d0
tst_NAN
jne 1f
moveq #-1,%d0
1: rts
fp_un:
moveq #0,%d0
tst_NAN
jeq 1f
moveq #-1,%d0
rts
fp_ueq:
moveq #-1,%d0
tst_NAN
jne 1f
tst_Z
jne 1f
moveq #0,%d0
1: rts
fp_ugt:
moveq #-1,%d0
tst_NAN
jne 2f
tst_N
jne 1f
tst_Z
jeq 2f
1: moveq #0,%d0
2: rts
fp_uge:
moveq #-1,%d0
tst_NAN
jne 1f
tst_Z
jne 1f
tst_N
jeq 1f
moveq #0,%d0
1: rts
fp_ult:
moveq #-1,%d0
tst_NAN
jne 2f
tst_Z
jne 1f
tst_N
jne 2f
1: moveq #0,%d0
2: rts
fp_ule:
moveq #-1,%d0
tst_NAN
jne 1f
tst_Z
jne 1f
tst_N
jne 1f
moveq #0,%d0
1: rts
fp_ne:
moveq #0,%d0
tst_Z
jne 1f
moveq #-1,%d0
1: rts
fp_t:
moveq #-1,%d0
rts