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511 lines
11 KiB
511 lines
11 KiB
page ,132
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title 87tran - elementary functions - EXP, LOG, LN, X^Y
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;***
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;87tran.asm - elementary functions - EXP, LOG, LN, X^Y
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;
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; Copyright (c) 1984-2001, Microsoft Corporation. All rights reserved.
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;
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;Purpose:
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; Support for EXP, LOG, LN, X^Y (80x87/emulator version)
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;
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;Revision History:
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;
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; 07/04/84 Greg Whitten
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; initial version
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;
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; 07/05/85 Greg Whitten
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; support x ^ y where x < 0 and y is an integer
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;
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; 07/08/85 Greg Whitten
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; corrected value of infinity (was a NaN)
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;
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; 07/26/85 Greg Whitten
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; make XENIX version truely System V compatible
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;
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; 10/31/85 Jamie Bariteau
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; made _fFEXP and _fFLN public labels
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;
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; 05/29/86 Jamie Bariteau
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; make pow return values conform to System V and
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; ANSI C standards
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;
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; 09/12/86 Barry McCord
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; added FORTRAN specific code to deal
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; with zero**nonpositive;
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; it requires run-time switching on language
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; for mixed-language support
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;
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; 10/09/86 Barry McCord
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; cotan(0.0) ==> SING error (jmp _rtinfnpopse),
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; return infinity
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;
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; 06/11/87 Greg Whitten
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; faster transcendental functions
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;
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; 06/24/87 Barry McCord
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; fixed FORTRAN 4.01 bug (bcp #1801) in which
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; an expression of the form
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; (small positive less than one) ** (large positive)
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; was overflowing instead of underflowing to zero
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;
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; 10/30/87 Bill Johnston
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; made changes for os/2 support.
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;
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; 04/25/88 Bill Johnston
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; _cpower is now on stack for MTHREAD
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;
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; 05/01/88 Bill Johnston
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; si was being trashed in MTHREAD
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;
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; 06/03/88 Bill Johnston
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; fixed neg ^ int int MTHREAD case
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;
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; 08/24/88 Bill Johnston
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; 386 version
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;
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; 11/15/91 Georgios Papagiannakopoulos
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; NT port. call _powhlp to handle special cases for pow()
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;
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; 04/01/91 Georgios Papagiannakopoulos
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; fixed special values: log(-INF), log(0), pow(0, neg)
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;
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; 10/27/92 Steve Salisbury
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; Move declaration of _powhlp out of .data declarations
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; This fix is required for use with MASM 6.10.
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;
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; 11/06/92 Georgios Papagiannakopoulos
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; changed special return values for NCEG conformance
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;
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; 09/06/94 Chris Weight
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; Change MTHREAD to _MT.
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;
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; 12/09/94 Jamie MacCalman
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; Modified fFEXP to test for bogus Pentiums and call an FDIV workaround
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;
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; 12/13/94 SKS Correct spelling of _adjust_fdiv
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;
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; 10-15-95 BWT Don't do _adjust_fdiv test for NT.
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;
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;*******************************************************************************
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.xlist
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include cruntime.inc
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include mrt386.inc
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include elem87.inc
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include os2supp.inc
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.list
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.data
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globalT _infinity, 07FFF8000000000000000R
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globalT _minfinity, 0FFFF8000000000000000R
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globalT _logemax, 0400DB1716685B9D7A7DCR
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staticT _log2max, 0400DFFFF000000000000R
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staticT _smallarg, 03FFD95F619980C4336F7R
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staticQ _half, 03fe0000000000000R
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SBUFSIZE EQU 108
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ifndef _MT
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staticT _temp, 0
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extrn _cpower:byte
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endif
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ifndef NT_BUILD
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extrn _adjust_fdiv:dword
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endif
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jmptab OP_EXP,3,<'exp',0,0,0>,<0,0,0,0,0,0>,1
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DNCPTR codeoffset fFEXP ; 0000 TOS Valid non-0
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DNCPTR codeoffset _rtonenpop ; 0001 TOS 0
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DNCPTR codeoffset _tosnan1 ; 0010 TOS NAN
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DNCPTR codeoffset _rtforexpinf ; 0011 TOS Inf
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page
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CODESEG
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extrn _rtindfpop:near
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extrn _rtindfnpop:near
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extrn _rtnospop:near
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extrn _rtonepop:near
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extrn _rtonenpop:near
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extrn _rttospop:near
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extrn _rttosnpop:near
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extrn _rttosnpopde:near
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extrn _rtzeronpop:near
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extrn _tosnan1:near
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extrn _tosnan2:near
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extrn _nosnan2:near
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extrn _nan2:near
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extrn _powhlp:proc
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ifndef NT_BUILD
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extrn _safe_fdivr:near
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endif
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;----------------------------------------------------------
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;
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; LOG AND EXPONENTIAL FUNCTIONS
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;
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;----------------------------------------------------------
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;
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; INPUTS - For single argument functions the argument
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; is the stack top. For fFYTOX the base
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; is next to stack top, the exponent is
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; the stack top.
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; For single argument functions the sign is
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; in bit 2 of CL. For fFYTOX the base
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; sign is bit 2 of CH, the exponent
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; sign is bit 2 of CL.
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;
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; OUTPUT - The result is the stack top
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;
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;----------------------------------------------------------
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lab fFYTOX
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mov DSF.ErrorType, CHECKRANGE ; indicate possible over/under flow on exit
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or ch,ch ; base < 0
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JSNZ negYTOX ; check for integer power
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fxch ; TOS = base , NOS = exponent
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lab fFXTOY
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fyl2x ; compute y*log2(x)
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jmp short fF2X ; compute 2^(y*log2(x))
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;-----------------------------------------------
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;
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; Entry for exponential function (exp)
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;
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;-----------------------------------------------
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labelNP _fFEXP, PUBLIC
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lab fFEXP
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mov DSF.ErrorType, CHECKRANGE ; indicate possible over/under flow on exit
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xor ch,ch ; result is always positive
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fldl2e
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fmul ; convert log base e to log base 2
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lab fF2X
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call _ffexpm1 ; get exponent and (2^fraction)-1
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fld1
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fadd
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test CondCode,1 ; if fraction > 0 (TOS > 0)
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JSZ ExpNoInvert ; bypass 2^x invert
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fld1
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ifdef NT_BUILD ; NT always handles the P5 bug in the OS
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fdivrp st(1),st(0)
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else
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cmp _adjust_fdiv, 1
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jz badP5_fdivr
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fdivrp st(1),st(0)
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jmp fdivr_done
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lab badP5_fdivr
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call _safe_fdivr
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lab fdivr_done
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endif
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lab ExpNoInvert
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test dl,040h ; if integer part was zero
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JSNZ ExpScaled ; bypass scaling to avoid bug
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fscale ; now TOS = 2^x
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lab ExpScaled
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or ch,ch ; check for negate flag
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JSZ expret
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fchs ; negate result (negreal ^ odd integer)
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lab expret
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jmp _rttospop
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lab negYTOX ; check for negreal ^ integer
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call _isintTOS
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or eax, eax
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JSE negYTOXerror
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xor ch,ch
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cmp eax, 2
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JSE evenexp
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not ch ; ch <> 0 means negative result
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lab evenexp
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fxch
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fabs ; x is positive
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jmp fFXTOY ; continue with ch <> 0 for neg result
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lab _rtfor0to0
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;cmp [_cpower], 1 ; DISABLED (conform to NCEG spec)
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;JSE c_0to0 ; C requires a DOMAIN error for System V compat.
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jmp _rtonepop ; MS FORTRAN has 0.0**0.0 == 1.0
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c_0to0:: ; System V needs DOMAIN error with 0.0 return
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lab negYTOXerror
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lab Yl2XArgNegative
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jmp _rtindfpop ; DOMAIN error or SING error
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; top of stack now has a NAN
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; code in 87cdisp replaces this with
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; proper System V return value
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; (for C only)
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; FORTRAN keeps indefinite value but
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; currently aborts on DOMAIN
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; and SING errors
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; FORTRAN SING error (return infinity)
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; e.g. 0.0**negative
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; and cotan(0.0)
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;
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labelNP _rtinfpopse, PUBLIC
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fstp st(0)
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labelNP _rtinfnpopse, PUBLIC
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fstp st(0)
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fld tbyte ptr [_infinity]
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mov DSF.ErrorType, SING
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ret
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labelNP _fFLN, PUBLIC
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lab fFLN
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fldln2
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fxch
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ftst
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fstsw DSF.StatusWord
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fwait
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test CondCode, 041H ; if arg is negative or zero
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JSNZ Yl2XArgNegative ; return a NAN
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fyl2x ; compute y*log2(x)
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ret
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;-------------------------------------------------------
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;
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; Logarithmic functions (log and log 10) entry points
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;
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;-------------------------------------------------------
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lab _rtforln0 ; (we don't distinguish +0, -0)
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mov DSF. ErrorType, SING ; set SING error
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fstp st(0)
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fld tbyte ptr [_minfinity]
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ret
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lab _rtforloginf
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or cl, cl ; check sign
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JSNZ tranindfnpop ; if negetive return indefinite
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ret ; else return +INF
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; no overflow in this case (IEEE)
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lab fFLOGm
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fldlg2 ; main LOG10 entry point
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jmp short fFYL2Xm
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lab fFLNm ; main LN entry point
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fldln2
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lab fFYL2Xm
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fxch
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or cl, cl ; if arg is negative
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JSNZ Yl2XArgNegative ; return a NAN
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fyl2x ; compute y*log2(x)
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ret
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page
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lab _rtforyto0
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jmp _rtonepop ; return 1.0
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lab _rtfor0tox
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call _isintTOS
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fstp st(0)
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fstp st(0)
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or cl, cl ; if 0^(-valid)
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JSNZ _rtfor0toneg ; do more checking
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fldz
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cmp eax, 1 ; eax has the return value of _isintTOS
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JSNE zerotoxdone
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or ch, ch
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JSE zerotoxdone
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fchs
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lab zerotoxdone
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ret
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lab _rtfor0toneg
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mov DSF.ErrorType, SING
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fld tbyte ptr [_infinity]
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cmp eax, 1 ; eax has the return value of _isintTOS
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JSNE zerotoxdone
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or ch, ch
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JSE zerotoxdone
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fchs
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jmp zerotoxdone
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lab tranzeropop
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fstp st(0) ; toss 1 stack entry
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lab tranzeronpop
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jmp _rtzeronpop
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lab tranindfpop
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fstp st(0) ; toss 1 stack entry
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lab tranindfnpop
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jmp _rtindfnpop
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lab ExpArgOutOfRange
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pop rax ; remove return address from stack
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; We need to check the sign of the
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; exponent to distinguish underflow
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; from overflow. We cannot just check
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; CL directly since for the XtoY case,
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; the exponent is a product of Y*log2(x)
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; and not an original argument that
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; has already been thru FXAM. So,
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; the following instructions were
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; substituted to fix FORTRAN 4.01
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; bcp #1801)
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ftst ; check if exponent was negative large
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fstsw DSF.StatusWord
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fwait
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test CondCode, 01h ; if valid^(-large)
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JSNZ zeronpopue ; underflow error/return zero
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fstp st(0) ; else return infinity/overflow
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fld [_infinity]
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or ch, ch
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JSZ _expbigret
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fchs
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lab _expbigret
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ret
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lab zeronpopue
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mov DSF.ErrorType, UNDERFLOW
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jmp _rtzeronpop
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labelNP _rtinfpop, PUBLIC
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fstp st(0) ; remove ST(0)
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labelNP _rtinfnpop, PUBLIC
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fstp st(0) ; remove ST(0)
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fld [_infinity] ; push infinity onto stack
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lab setOVERFLOW
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mov DSF.ErrorType, OVERFLOW ; set OVERFLOW error
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ret
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lab _rtforexpinf
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or cl, cl
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JSNZ tranzeronpop ; if exp(-infinity) return +zero
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fstp st(0)
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fld [_infinity] ; return infinity, no overflow
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ret
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labelNP _ffexpm1, PUBLIC
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fld st(0) ; copy TOS
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fabs ; make TOS +ve
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fld [_log2max] ; get log2 of largest number
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fcompp
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fstsw DSF.StatusWord
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fwait
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test CondCode, 041H ; if abs(arg) >= 2^15-.5
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JSNZ ExpArgOutOfRange ; perform arg out of range routine
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fld st(0) ; copy TOS
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frndint ; near round to integer
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ftst
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fstsw DSF.StatusWord
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fwait
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mov dl, CondCode ; save sign of integer part
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fxch ; NOS gets integer part
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fsub st,st(1) ; TOS gets fraction
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ftst
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fstsw DSF.StatusWord ; store sign of fraction
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fabs
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f2xm1
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ret
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;
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; returns 0, 1, 2 if TOS is non-int, odd int or even int respectively
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;
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lab _isintTOS
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fld st(0)
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frndint
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fcomp
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fstsw ax
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sahf
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JSNE notanint
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fld st(0) ; it is an integer
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fmul [_half]
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fld st(0)
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frndint
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fcompp
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fstsw ax
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sahf
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JSE evenint
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mov eax, 1
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lab _isintTOSret
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ret
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lab notanint
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mov eax, 0
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jmp _isintTOSret
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lab evenint
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mov eax, 2
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jmp _isintTOSret
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lab _usepowhlp
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push rsi ; save rsi
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sub rsp, SBUFSIZE+8 ; get storage for _retval and savebuf
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mov rsi, rsp
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push rsi ; push address for result
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sub rsp, 8
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fstp qword ptr [rsp]
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sub rsp, 8
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fstp qword ptr [rsp]
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fsave [rsi+8]
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call _powhlp
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ifndef _STDCALL
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add esp, 16+ISIZE ; clear arguments if _cdecl.
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endif
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frstor [rsi+8]
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fld qword ptr [rsi] ; load result on the NDP stack
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add rsp, SBUFSIZE+8 ; get rid of storage
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pop rsi ; restore rsi
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test rax, rax ; check return value for domain error
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JSZ noerror
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jmp _rttosnpopde
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lab noerror
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ret
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end
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