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//
//      $Id: x_ovfl.S,v 1.2 2001-09-27 12:01:22 chris Exp $
//
//      x_ovfl.sa 3.5 7/1/91
//
//      fpsp_ovfl --- FPSP handler for overflow exception
//
//      Overflow occurs when a floating-point intermediate result is
//      too large to be represented in a floating-point data register,
//      or when storing to memory, the contents of a floating-point
//      data register are too large to be represented in the
//      destination format.
//              
// Trap disabled results
//
// If the instruction is move_out, then garbage is stored in the
// destination.  If the instruction is not move_out, then the
// destination is not affected.  For 68881 compatibility, the
// following values should be stored at the destination, based
// on the current rounding mode:
//
//  RN  Infinity with the sign of the intermediate result.
//  RZ  Largest magnitude number, with the sign of the
//      intermediate result.
//  RM   For pos overflow, the largest pos number. For neg overflow,
//      -infinity
//  RP   For pos overflow, +infinity. For neg overflow, the largest
//      neg number
//
// Trap enabled results
// All trap disabled code applies.  In addition the exceptional
// operand needs to be made available to the users exception handler
// with a bias of $6000 subtracted from the exponent.
//
//

//              Copyright (C) Motorola, Inc. 1990
//                      All Rights Reserved
//
//      THIS IS UNPUBLISHED PROPRIETARY SOURCE CODE OF MOTOROLA 
//      The copyright notice above does not evidence any  
//      actual or intended publication of such source code.

X_OVFL: //idnt    2,1 | Motorola 040 Floating Point Software Package

        |section        8

#include "fpsp.defs"

        |xref   ovf_r_x2
        |xref   ovf_r_x3
        |xref   store
        |xref   real_ovfl
        |xref   real_inex
        |xref   fpsp_done
        |xref   g_opcls
        |xref   b1238_fix

        .global fpsp_ovfl
fpsp_ovfl:
        link            %a6,#-LOCAL_SIZE
        fsave           -(%a7)
        moveml          %d0-%d1/%a0-%a1,USER_DA(%a6)
        fmovemx %fp0-%fp3,USER_FP0(%a6)
        fmoveml %fpcr/%fpsr/%fpiar,USER_FPCR(%a6)

//
//      The 040 doesn't set the AINEX bit in the FPSR, the following
//      line temporarily rectifies this error.
//
        bsetb   #ainex_bit,FPSR_AEXCEPT(%a6)
//
        bsrl    ovf_adj         //denormalize, round & store interm op
//
//      if overflow traps not enabled check for inexact exception
//
        btstb   #ovfl_bit,FPCR_ENABLE(%a6)
        beqs    ck_inex 
//
        btstb           #E3,E_BYTE(%a6)
        beqs            no_e3_1
        bfextu          CMDREG3B(%a6){#6:#3},%d0        //get dest reg no
        bclrb           %d0,FPR_DIRTY_BITS(%a6) //clr dest dirty bit
        bsrl            b1238_fix
        movel           USER_FPSR(%a6),FPSR_SHADOW(%a6)
        orl             #sx_mask,E_BYTE(%a6)
no_e3_1:
        moveml          USER_DA(%a6),%d0-%d1/%a0-%a1
        fmovemx USER_FP0(%a6),%fp0-%fp3
        fmoveml USER_FPCR(%a6),%fpcr/%fpsr/%fpiar
        frestore        (%a7)+
        unlk            %a6
        bral            real_ovfl
//
// It is possible to have either inex2 or inex1 exceptions with the
// ovfl.  If the inex enable bit is set in the FPCR, and either
// inex2 or inex1 occurred, we must clean up and branch to the
// real inex handler.
//
ck_inex:
//      move.b          FPCR_ENABLE(%a6),%d0
//      and.b           FPSR_EXCEPT(%a6),%d0
//      andi.b          #$3,%d0
        btstb           #inex2_bit,FPCR_ENABLE(%a6)
        beqs            ovfl_exit
//
// Inexact enabled and reported, and we must take an inexact exception.
//
take_inex:
        btstb           #E3,E_BYTE(%a6)
        beqs            no_e3_2
        bfextu          CMDREG3B(%a6){#6:#3},%d0        //get dest reg no
        bclrb           %d0,FPR_DIRTY_BITS(%a6) //clr dest dirty bit
        bsrl            b1238_fix
        movel           USER_FPSR(%a6),FPSR_SHADOW(%a6)
        orl             #sx_mask,E_BYTE(%a6)
no_e3_2:
        moveb           #INEX_VEC,EXC_VEC+1(%a6)
        moveml          USER_DA(%a6),%d0-%d1/%a0-%a1
        fmovemx USER_FP0(%a6),%fp0-%fp3
        fmoveml USER_FPCR(%a6),%fpcr/%fpsr/%fpiar
        frestore        (%a7)+
        unlk            %a6
        bral            real_inex
        
ovfl_exit:
        bclrb   #E3,E_BYTE(%a6) //test and clear E3 bit
        beqs    e1_set
//
// Clear dirty bit on dest resister in the frame before branching
// to b1238_fix.
//
        bfextu          CMDREG3B(%a6){#6:#3},%d0        //get dest reg no
        bclrb           %d0,FPR_DIRTY_BITS(%a6) //clr dest dirty bit
        bsrl            b1238_fix               //test for bug1238 case

        movel           USER_FPSR(%a6),FPSR_SHADOW(%a6)
        orl             #sx_mask,E_BYTE(%a6)
        moveml          USER_DA(%a6),%d0-%d1/%a0-%a1
        fmovemx USER_FP0(%a6),%fp0-%fp3
        fmoveml USER_FPCR(%a6),%fpcr/%fpsr/%fpiar
        frestore        (%a7)+
        unlk            %a6
        bral            fpsp_done
e1_set:
        moveml          USER_DA(%a6),%d0-%d1/%a0-%a1
        fmovemx USER_FP0(%a6),%fp0-%fp3
        fmoveml USER_FPCR(%a6),%fpcr/%fpsr/%fpiar
        unlk            %a6
        bral            fpsp_done

//
//      ovf_adj
//
ovf_adj:
//
// Have a0 point to the correct operand. 
//
        btstb   #E3,E_BYTE(%a6) //test E3 bit
        beqs    ovf_e1

        lea     WBTEMP(%a6),%a0
        bras    ovf_com
ovf_e1:
        lea     ETEMP(%a6),%a0

ovf_com:
        bclrb   #sign_bit,LOCAL_EX(%a0)
        sne     LOCAL_SGN(%a0)

        bsrl    g_opcls         //returns opclass in d0
        cmpiw   #3,%d0          //check for opclass3
        bnes    not_opc011

//
// FPSR_CC is saved and restored because ovf_r_x3 affects it. The
// CCs are defined to be 'not affected' for the opclass3 instruction.
//
        moveb   FPSR_CC(%a6),L_SCR1(%a6)
        bsrl    ovf_r_x3        //returns a0 pointing to result
        moveb   L_SCR1(%a6),FPSR_CC(%a6)
        bral    store           //stores to memory or register
        
not_opc011:
        bsrl    ovf_r_x2        //returns a0 pointing to result
        bral    store           //stores to memory or register

        |end