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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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e00d82d07f
Acked-by: Alan Cox <alan@redhat.com> Signed-off-by: Matt Waddel <Matt.Waddel@freescale.com> Cc: Roman Zippel <zippel@linux-m68k.org> Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
748 lines
17 KiB
ArmAsm
748 lines
17 KiB
ArmAsm
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| util.sa 3.7 7/29/91
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| This file contains routines used by other programs.
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| ovf_res: used by overflow to force the correct
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| result. ovf_r_k, ovf_r_x2, ovf_r_x3 are
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| derivatives of this routine.
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| get_fline: get user's opcode word
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| g_dfmtou: returns the destination format.
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| g_opcls: returns the opclass of the float instruction.
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| g_rndpr: returns the rounding precision.
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| reg_dest: write byte, word, or long data to Dn
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| Copyright (C) Motorola, Inc. 1990
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| All Rights Reserved
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| For details on the license for this file, please see the
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| file, README, in this same directory.
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|UTIL idnt 2,1 | Motorola 040 Floating Point Software Package
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|section 8
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#include "fpsp.h"
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|xref mem_read
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.global g_dfmtou
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.global g_opcls
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.global g_rndpr
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.global get_fline
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.global reg_dest
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| Final result table for ovf_res. Note that the negative counterparts
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| are unnecessary as ovf_res always returns the sign separately from
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| the exponent.
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| ;+inf
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EXT_PINF: .long 0x7fff0000,0x00000000,0x00000000,0x00000000
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| ;largest +ext
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EXT_PLRG: .long 0x7ffe0000,0xffffffff,0xffffffff,0x00000000
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| ;largest magnitude +sgl in ext
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SGL_PLRG: .long 0x407e0000,0xffffff00,0x00000000,0x00000000
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| ;largest magnitude +dbl in ext
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DBL_PLRG: .long 0x43fe0000,0xffffffff,0xfffff800,0x00000000
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| ;largest -ext
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tblovfl:
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.long EXT_RN
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.long EXT_RZ
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.long EXT_RM
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.long EXT_RP
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.long SGL_RN
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.long SGL_RZ
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.long SGL_RM
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.long SGL_RP
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.long DBL_RN
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.long DBL_RZ
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.long DBL_RM
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.long DBL_RP
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.long error
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.long error
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.long error
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.long error
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| ovf_r_k --- overflow result calculation
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| This entry point is used by kernel_ex.
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| This forces the destination precision to be extended
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| Input: operand in ETEMP
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| Output: a result is in ETEMP (internal extended format)
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.global ovf_r_k
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ovf_r_k:
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lea ETEMP(%a6),%a0 |a0 points to source operand
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bclrb #sign_bit,ETEMP_EX(%a6)
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sne ETEMP_SGN(%a6) |convert to internal IEEE format
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| ovf_r_x2 --- overflow result calculation
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| This entry point used by x_ovfl. (opclass 0 and 2)
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| Input a0 points to an operand in the internal extended format
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| Output a0 points to the result in the internal extended format
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| This sets the round precision according to the user's FPCR unless the
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| instruction is fsgldiv or fsglmul or fsadd, fdadd, fsub, fdsub, fsmul,
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| fdmul, fsdiv, fddiv, fssqrt, fsmove, fdmove, fsabs, fdabs, fsneg, fdneg.
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| If the instruction is fsgldiv of fsglmul, the rounding precision must be
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| extended. If the instruction is not fsgldiv or fsglmul but a force-
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| precision instruction, the rounding precision is then set to the force
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| precision.
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.global ovf_r_x2
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ovf_r_x2:
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btstb #E3,E_BYTE(%a6) |check for nu exception
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beql ovf_e1_exc |it is cu exception
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ovf_e3_exc:
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movew CMDREG3B(%a6),%d0 |get the command word
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andiw #0x00000060,%d0 |clear all bits except 6 and 5
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cmpil #0x00000040,%d0
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beql ovff_sgl |force precision is single
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cmpil #0x00000060,%d0
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beql ovff_dbl |force precision is double
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movew CMDREG3B(%a6),%d0 |get the command word again
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andil #0x7f,%d0 |clear all except operation
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cmpil #0x33,%d0
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beql ovf_fsgl |fsglmul or fsgldiv
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cmpil #0x30,%d0
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beql ovf_fsgl
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bra ovf_fpcr |instruction is none of the above
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| ;use FPCR
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ovf_e1_exc:
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movew CMDREG1B(%a6),%d0 |get command word
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andil #0x00000044,%d0 |clear all bits except 6 and 2
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cmpil #0x00000040,%d0
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beql ovff_sgl |the instruction is force single
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cmpil #0x00000044,%d0
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beql ovff_dbl |the instruction is force double
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movew CMDREG1B(%a6),%d0 |again get the command word
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andil #0x0000007f,%d0 |clear all except the op code
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cmpil #0x00000027,%d0
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beql ovf_fsgl |fsglmul
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cmpil #0x00000024,%d0
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beql ovf_fsgl |fsgldiv
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bra ovf_fpcr |none of the above, use FPCR
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| Inst is either fsgldiv or fsglmul. Force extended precision.
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ovf_fsgl:
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clrl %d0
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bra ovf_res
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ovff_sgl:
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movel #0x00000001,%d0 |set single
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bra ovf_res
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ovff_dbl:
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movel #0x00000002,%d0 |set double
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bra ovf_res
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| The precision is in the fpcr.
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ovf_fpcr:
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bfextu FPCR_MODE(%a6){#0:#2},%d0 |set round precision
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bra ovf_res
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| ovf_r_x3 --- overflow result calculation
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| This entry point used by x_ovfl. (opclass 3 only)
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| Input a0 points to an operand in the internal extended format
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| Output a0 points to the result in the internal extended format
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| This sets the round precision according to the destination size.
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.global ovf_r_x3
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ovf_r_x3:
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bsr g_dfmtou |get dest fmt in d0{1:0}
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| ;for fmovout, the destination format
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| ;is the rounding precision
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| ovf_res --- overflow result calculation
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| Input:
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| a0 points to operand in internal extended format
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| Output:
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| a0 points to result in internal extended format
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.global ovf_res
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ovf_res:
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lsll #2,%d0 |move round precision to d0{3:2}
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bfextu FPCR_MODE(%a6){#2:#2},%d1 |set round mode
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orl %d1,%d0 |index is fmt:mode in d0{3:0}
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leal tblovfl,%a1 |load a1 with table address
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movel %a1@(%d0:l:4),%a1 |use d0 as index to the table
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jmp (%a1) |go to the correct routine
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|case DEST_FMT = EXT
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EXT_RN:
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leal EXT_PINF,%a1 |answer is +/- infinity
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bsetb #inf_bit,FPSR_CC(%a6)
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bra set_sign |now go set the sign
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EXT_RZ:
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leal EXT_PLRG,%a1 |answer is +/- large number
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bra set_sign |now go set the sign
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EXT_RM:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs e_rm_pos
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e_rm_neg:
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leal EXT_PINF,%a1 |answer is negative infinity
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orl #neginf_mask,USER_FPSR(%a6)
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bra end_ovfr
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e_rm_pos:
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leal EXT_PLRG,%a1 |answer is large positive number
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bra end_ovfr
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EXT_RP:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs e_rp_pos
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e_rp_neg:
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leal EXT_PLRG,%a1 |answer is large negative number
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bsetb #neg_bit,FPSR_CC(%a6)
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bra end_ovfr
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e_rp_pos:
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leal EXT_PINF,%a1 |answer is positive infinity
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bsetb #inf_bit,FPSR_CC(%a6)
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bra end_ovfr
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|case DEST_FMT = DBL
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DBL_RN:
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leal EXT_PINF,%a1 |answer is +/- infinity
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bsetb #inf_bit,FPSR_CC(%a6)
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bra set_sign
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DBL_RZ:
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leal DBL_PLRG,%a1 |answer is +/- large number
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bra set_sign |now go set the sign
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DBL_RM:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs d_rm_pos
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d_rm_neg:
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leal EXT_PINF,%a1 |answer is negative infinity
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orl #neginf_mask,USER_FPSR(%a6)
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bra end_ovfr |inf is same for all precisions (ext,dbl,sgl)
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d_rm_pos:
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leal DBL_PLRG,%a1 |answer is large positive number
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bra end_ovfr
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DBL_RP:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs d_rp_pos
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d_rp_neg:
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leal DBL_PLRG,%a1 |answer is large negative number
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bsetb #neg_bit,FPSR_CC(%a6)
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bra end_ovfr
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d_rp_pos:
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leal EXT_PINF,%a1 |answer is positive infinity
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bsetb #inf_bit,FPSR_CC(%a6)
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bra end_ovfr
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|case DEST_FMT = SGL
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SGL_RN:
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leal EXT_PINF,%a1 |answer is +/- infinity
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bsetb #inf_bit,FPSR_CC(%a6)
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bras set_sign
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SGL_RZ:
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leal SGL_PLRG,%a1 |answer is +/- large number
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bras set_sign
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SGL_RM:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs s_rm_pos
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s_rm_neg:
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leal EXT_PINF,%a1 |answer is negative infinity
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orl #neginf_mask,USER_FPSR(%a6)
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bras end_ovfr
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s_rm_pos:
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leal SGL_PLRG,%a1 |answer is large positive number
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bras end_ovfr
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SGL_RP:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs s_rp_pos
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s_rp_neg:
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leal SGL_PLRG,%a1 |answer is large negative number
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bsetb #neg_bit,FPSR_CC(%a6)
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bras end_ovfr
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s_rp_pos:
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leal EXT_PINF,%a1 |answer is positive infinity
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bsetb #inf_bit,FPSR_CC(%a6)
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bras end_ovfr
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set_sign:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs end_ovfr
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neg_sign:
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bsetb #neg_bit,FPSR_CC(%a6)
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end_ovfr:
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movew LOCAL_EX(%a1),LOCAL_EX(%a0) |do not overwrite sign
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movel LOCAL_HI(%a1),LOCAL_HI(%a0)
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movel LOCAL_LO(%a1),LOCAL_LO(%a0)
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rts
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| ERROR
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error:
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rts
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| get_fline --- get f-line opcode of interrupted instruction
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| Returns opcode in the low word of d0.
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get_fline:
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movel USER_FPIAR(%a6),%a0 |opcode address
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movel #0,-(%a7) |reserve a word on the stack
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leal 2(%a7),%a1 |point to low word of temporary
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movel #2,%d0 |count
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bsrl mem_read
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movel (%a7)+,%d0
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rts
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| g_rndpr --- put rounding precision in d0{1:0}
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| valid return codes are:
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| 00 - extended
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| 01 - single
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| 10 - double
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| begin
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| get rounding precision (cmdreg3b{6:5})
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| begin
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| case opclass = 011 (move out)
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| get destination format - this is the also the rounding precision
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| case opclass = 0x0
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| if E3
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| *case RndPr(from cmdreg3b{6:5} = 11 then RND_PREC = DBL
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| *case RndPr(from cmdreg3b{6:5} = 10 then RND_PREC = SGL
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| case RndPr(from cmdreg3b{6:5} = 00 | 01
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| use precision from FPCR{7:6}
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| case 00 then RND_PREC = EXT
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| case 01 then RND_PREC = SGL
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| case 10 then RND_PREC = DBL
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| else E1
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| use precision in FPCR{7:6}
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| case 00 then RND_PREC = EXT
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| case 01 then RND_PREC = SGL
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| case 10 then RND_PREC = DBL
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| end
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g_rndpr:
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bsr g_opcls |get opclass in d0{2:0}
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cmpw #0x0003,%d0 |check for opclass 011
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bnes op_0x0
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| For move out instructions (opclass 011) the destination format
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| is the same as the rounding precision. Pass results from g_dfmtou.
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bsr g_dfmtou
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rts
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op_0x0:
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btstb #E3,E_BYTE(%a6)
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beql unf_e1_exc |branch to e1 underflow
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unf_e3_exc:
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movel CMDREG3B(%a6),%d0 |rounding precision in d0{10:9}
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bfextu %d0{#9:#2},%d0 |move the rounding prec bits to d0{1:0}
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cmpil #0x2,%d0
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beql unff_sgl |force precision is single
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cmpil #0x3,%d0 |force precision is double
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beql unff_dbl
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movew CMDREG3B(%a6),%d0 |get the command word again
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andil #0x7f,%d0 |clear all except operation
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cmpil #0x33,%d0
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beql unf_fsgl |fsglmul or fsgldiv
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cmpil #0x30,%d0
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beql unf_fsgl |fsgldiv or fsglmul
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bra unf_fpcr
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unf_e1_exc:
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movel CMDREG1B(%a6),%d0 |get 32 bits off the stack, 1st 16 bits
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| ;are the command word
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andil #0x00440000,%d0 |clear all bits except bits 6 and 2
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cmpil #0x00400000,%d0
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beql unff_sgl |force single
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cmpil #0x00440000,%d0 |force double
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beql unff_dbl
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movel CMDREG1B(%a6),%d0 |get the command word again
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andil #0x007f0000,%d0 |clear all bits except the operation
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cmpil #0x00270000,%d0
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beql unf_fsgl |fsglmul
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cmpil #0x00240000,%d0
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beql unf_fsgl |fsgldiv
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bra unf_fpcr
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| Convert to return format. The values from cmdreg3b and the return
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| values are:
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| cmdreg3b return precision
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| -------- ------ ---------
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| 00,01 0 ext
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| 10 1 sgl
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| 11 2 dbl
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| Force single
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unff_sgl:
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movel #1,%d0 |return 1
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rts
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| Force double
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unff_dbl:
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movel #2,%d0 |return 2
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rts
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| Force extended
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unf_fsgl:
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movel #0,%d0
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rts
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| Get rounding precision set in FPCR{7:6}.
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unf_fpcr:
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movel USER_FPCR(%a6),%d0 |rounding precision bits in d0{7:6}
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bfextu %d0{#24:#2},%d0 |move the rounding prec bits to d0{1:0}
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rts
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| g_opcls --- put opclass in d0{2:0}
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g_opcls:
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btstb #E3,E_BYTE(%a6)
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beqs opc_1b |if set, go to cmdreg1b
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opc_3b:
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clrl %d0 |if E3, only opclass 0x0 is possible
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rts
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opc_1b:
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movel CMDREG1B(%a6),%d0
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bfextu %d0{#0:#3},%d0 |shift opclass bits d0{31:29} to d0{2:0}
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rts
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| g_dfmtou --- put destination format in d0{1:0}
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| If E1, the format is from cmdreg1b{12:10}
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| If E3, the format is extended.
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| Dest. Fmt.
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| extended 010 -> 00
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| single 001 -> 01
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| double 101 -> 10
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g_dfmtou:
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btstb #E3,E_BYTE(%a6)
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beqs op011
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clrl %d0 |if E1, size is always ext
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rts
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op011:
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movel CMDREG1B(%a6),%d0
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bfextu %d0{#3:#3},%d0 |dest fmt from cmdreg1b{12:10}
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cmpb #1,%d0 |check for single
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bnes not_sgl
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movel #1,%d0
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rts
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not_sgl:
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cmpb #5,%d0 |check for double
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bnes not_dbl
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movel #2,%d0
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rts
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not_dbl:
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clrl %d0 |must be extended
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rts
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| Final result table for unf_sub. Note that the negative counterparts
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| are unnecessary as unf_sub always returns the sign separately from
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| the exponent.
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| ;+zero
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EXT_PZRO: .long 0x00000000,0x00000000,0x00000000,0x00000000
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| ;+zero
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SGL_PZRO: .long 0x3f810000,0x00000000,0x00000000,0x00000000
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| ;+zero
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DBL_PZRO: .long 0x3c010000,0x00000000,0x00000000,0x00000000
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| ;smallest +ext denorm
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EXT_PSML: .long 0x00000000,0x00000000,0x00000001,0x00000000
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| ;smallest +sgl denorm
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SGL_PSML: .long 0x3f810000,0x00000100,0x00000000,0x00000000
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| ;smallest +dbl denorm
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DBL_PSML: .long 0x3c010000,0x00000000,0x00000800,0x00000000
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| UNF_SUB --- underflow result calculation
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| Input:
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| d0 contains round precision
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| a0 points to input operand in the internal extended format
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| Output:
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| a0 points to correct internal extended precision result.
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tblunf:
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.long uEXT_RN
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.long uEXT_RZ
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.long uEXT_RM
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.long uEXT_RP
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.long uSGL_RN
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.long uSGL_RZ
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.long uSGL_RM
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.long uSGL_RP
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.long uDBL_RN
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.long uDBL_RZ
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.long uDBL_RM
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.long uDBL_RP
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.long uDBL_RN
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.long uDBL_RZ
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.long uDBL_RM
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.long uDBL_RP
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.global unf_sub
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unf_sub:
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lsll #2,%d0 |move round precision to d0{3:2}
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bfextu FPCR_MODE(%a6){#2:#2},%d1 |set round mode
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orl %d1,%d0 |index is fmt:mode in d0{3:0}
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leal tblunf,%a1 |load a1 with table address
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movel %a1@(%d0:l:4),%a1 |use d0 as index to the table
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jmp (%a1) |go to the correct routine
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|case DEST_FMT = EXT
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uEXT_RN:
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leal EXT_PZRO,%a1 |answer is +/- zero
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bsetb #z_bit,FPSR_CC(%a6)
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bra uset_sign |now go set the sign
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uEXT_RZ:
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leal EXT_PZRO,%a1 |answer is +/- zero
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bsetb #z_bit,FPSR_CC(%a6)
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bra uset_sign |now go set the sign
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uEXT_RM:
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tstb LOCAL_SGN(%a0) |if negative underflow
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beqs ue_rm_pos
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ue_rm_neg:
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leal EXT_PSML,%a1 |answer is negative smallest denorm
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bsetb #neg_bit,FPSR_CC(%a6)
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bra end_unfr
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ue_rm_pos:
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leal EXT_PZRO,%a1 |answer is positive zero
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bsetb #z_bit,FPSR_CC(%a6)
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bra end_unfr
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uEXT_RP:
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tstb LOCAL_SGN(%a0) |if negative underflow
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beqs ue_rp_pos
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ue_rp_neg:
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leal EXT_PZRO,%a1 |answer is negative zero
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oril #negz_mask,USER_FPSR(%a6)
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bra end_unfr
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ue_rp_pos:
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leal EXT_PSML,%a1 |answer is positive smallest denorm
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bra end_unfr
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|case DEST_FMT = DBL
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uDBL_RN:
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leal DBL_PZRO,%a1 |answer is +/- zero
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bsetb #z_bit,FPSR_CC(%a6)
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bra uset_sign
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uDBL_RZ:
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leal DBL_PZRO,%a1 |answer is +/- zero
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bsetb #z_bit,FPSR_CC(%a6)
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bra uset_sign |now go set the sign
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uDBL_RM:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs ud_rm_pos
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ud_rm_neg:
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leal DBL_PSML,%a1 |answer is smallest denormalized negative
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bsetb #neg_bit,FPSR_CC(%a6)
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bra end_unfr
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ud_rm_pos:
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leal DBL_PZRO,%a1 |answer is positive zero
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bsetb #z_bit,FPSR_CC(%a6)
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bra end_unfr
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uDBL_RP:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs ud_rp_pos
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ud_rp_neg:
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leal DBL_PZRO,%a1 |answer is negative zero
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oril #negz_mask,USER_FPSR(%a6)
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bra end_unfr
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ud_rp_pos:
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leal DBL_PSML,%a1 |answer is smallest denormalized negative
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bra end_unfr
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|case DEST_FMT = SGL
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uSGL_RN:
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leal SGL_PZRO,%a1 |answer is +/- zero
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bsetb #z_bit,FPSR_CC(%a6)
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bras uset_sign
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uSGL_RZ:
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leal SGL_PZRO,%a1 |answer is +/- zero
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bsetb #z_bit,FPSR_CC(%a6)
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bras uset_sign
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uSGL_RM:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs us_rm_pos
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us_rm_neg:
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leal SGL_PSML,%a1 |answer is smallest denormalized negative
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bsetb #neg_bit,FPSR_CC(%a6)
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bras end_unfr
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us_rm_pos:
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leal SGL_PZRO,%a1 |answer is positive zero
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bsetb #z_bit,FPSR_CC(%a6)
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bras end_unfr
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uSGL_RP:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs us_rp_pos
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us_rp_neg:
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leal SGL_PZRO,%a1 |answer is negative zero
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oril #negz_mask,USER_FPSR(%a6)
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bras end_unfr
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us_rp_pos:
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leal SGL_PSML,%a1 |answer is smallest denormalized positive
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bras end_unfr
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uset_sign:
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tstb LOCAL_SGN(%a0) |if negative overflow
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beqs end_unfr
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uneg_sign:
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bsetb #neg_bit,FPSR_CC(%a6)
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end_unfr:
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movew LOCAL_EX(%a1),LOCAL_EX(%a0) |be careful not to overwrite sign
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movel LOCAL_HI(%a1),LOCAL_HI(%a0)
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movel LOCAL_LO(%a1),LOCAL_LO(%a0)
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rts
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| reg_dest --- write byte, word, or long data to Dn
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| Input:
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| L_SCR1: Data
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| d1: data size and dest register number formatted as:
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| 32 5 4 3 2 1 0
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| -----------------------------------------------
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| | 0 | Size | Dest Reg # |
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| -----------------------------------------------
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| Size is:
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| 0 - Byte
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| 1 - Word
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| 2 - Long/Single
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pregdst:
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.long byte_d0
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.long byte_d1
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.long byte_d2
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.long byte_d3
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.long byte_d4
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.long byte_d5
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.long byte_d6
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.long byte_d7
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.long word_d0
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.long word_d1
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.long word_d2
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.long word_d3
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.long word_d4
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.long word_d5
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.long word_d6
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.long word_d7
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.long long_d0
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.long long_d1
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.long long_d2
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.long long_d3
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.long long_d4
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.long long_d5
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.long long_d6
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.long long_d7
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reg_dest:
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leal pregdst,%a0
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movel %a0@(%d1:l:4),%a0
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jmp (%a0)
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byte_d0:
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moveb L_SCR1(%a6),USER_D0+3(%a6)
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rts
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byte_d1:
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moveb L_SCR1(%a6),USER_D1+3(%a6)
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rts
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byte_d2:
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moveb L_SCR1(%a6),%d2
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rts
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byte_d3:
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moveb L_SCR1(%a6),%d3
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rts
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byte_d4:
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moveb L_SCR1(%a6),%d4
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rts
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byte_d5:
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moveb L_SCR1(%a6),%d5
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rts
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byte_d6:
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moveb L_SCR1(%a6),%d6
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rts
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byte_d7:
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moveb L_SCR1(%a6),%d7
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rts
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word_d0:
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movew L_SCR1(%a6),USER_D0+2(%a6)
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rts
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word_d1:
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movew L_SCR1(%a6),USER_D1+2(%a6)
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rts
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word_d2:
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movew L_SCR1(%a6),%d2
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rts
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word_d3:
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movew L_SCR1(%a6),%d3
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rts
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word_d4:
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movew L_SCR1(%a6),%d4
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rts
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word_d5:
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movew L_SCR1(%a6),%d5
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rts
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word_d6:
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movew L_SCR1(%a6),%d6
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rts
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word_d7:
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movew L_SCR1(%a6),%d7
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rts
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long_d0:
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movel L_SCR1(%a6),USER_D0(%a6)
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rts
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long_d1:
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movel L_SCR1(%a6),USER_D1(%a6)
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rts
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long_d2:
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movel L_SCR1(%a6),%d2
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rts
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long_d3:
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movel L_SCR1(%a6),%d3
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rts
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long_d4:
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movel L_SCR1(%a6),%d4
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rts
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long_d5:
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movel L_SCR1(%a6),%d5
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rts
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long_d6:
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movel L_SCR1(%a6),%d6
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rts
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long_d7:
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movel L_SCR1(%a6),%d7
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rts
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|end
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