417 lines
12 KiB
NASM
417 lines
12 KiB
NASM
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subttl emload.asm - FLD and FILD instructions
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page
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;emload.asm - FLD and FILD instructions
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; Microsoft Confidential
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; Copyright (c) Microsoft Corporation 1991
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; All Rights Reserved
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;Purpose:
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; FLD and FILD instructions
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;Inputs:
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; edi = [CURstk]
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; dseg:esi = pointer to memory operand
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;Revision History:
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; [] 09/05/91 TP Initial 32-bit version.
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PrevStackWrap edi,LdStk ;Tied to PrevStackElem below
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EM_ENTRY eFLDreg
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eFLDreg:
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; edi = [CURstk]
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; esi = pointer to st(i) from instruction field
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PrevStackElem edi,LdStk ;Point to receiving location
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cmp EMSEG:[edi].bTag,bTAG_EMPTY ;Is it empty?
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jnz FldErr
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mov ecx,EMSEG:[esi].ExpSgn
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cmp cl,bTAG_EMPTY
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jz FldErr
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mov ebx,EMSEG:[esi].lManHi
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mov esi,EMSEG:[esi].lManLo
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mov EMSEG:[CURstk],edi
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mov EMSEG:[edi].lManLo,esi
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mov EMSEG:[edi].lManHi,ebx
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mov EMSEG:[edi].ExpSgn,ecx
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ret
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;This is common code that stores a value into the stack after being loaded
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;into registers by the appropriate routine.
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PrevStackWrap edi,Load ;Tied to PrevStackElem below
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FldCont:
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;mantissa in ebx:esi, exp/sign in ecx
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;edi = [CURstk]
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PrevStackElem edi,Load ;Point to receiving location
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cmp EMSEG:[edi].bTag,bTAG_EMPTY ;Is it empty?
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jnz FldErr
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cmp cl,bTAG_NAN ;Returning a NAN?
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jz FldNAN
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SaveStack:
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mov EMSEG:[CURstk],edi
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mov EMSEG:[edi].lManLo,esi
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mov EMSEG:[edi].lManHi,ebx
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mov EMSEG:[edi].ExpSgn,ecx
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ret
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FldErr:
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or EMSEG:[SWcc],C1 ;Signal overflow
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mov EMSEG:[CURerr],StackFlag;Kills possible denormal exception
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Unsupported:
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call ReturnIndefinite ;in emarith.asm
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jz FldExit ;Unmasked, do nothing
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mov EMSEG:[CURstk],edi ;Update top of stack
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FldExit:
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ret
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FldNAN:
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;Is it a signaling NAN?
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test ebx,1 shl 30 ;Check for SNAN
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jnz SaveStack ;If QNAN, just use it as result
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or EMSEG:[CURerr],Invalid ;Flag the error
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or ebx,1 shl 30 ;Make it into a QNAN
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test EMSEG:[CWmask],Invalid ;Is it masked?
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jnz SaveStack ;If so, update with masked response
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ret
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;Load Single Real
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EM_ENTRY eFLD32
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eFLD32:
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push offset FldCont ;Return address
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;Fall into Load32Real
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Load32Real:
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;dseg:esi points to IEEE 32-bit real number
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;On exit:
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; mantissa in ebx:esi, exponent in high ecx, sign in ch bit 7, tag in cl
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;preserves edi.
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mov EMSEG:[PrevDataOff],esi ;Save operand pointer
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mov ecx,dseg:[esi] ;Get number
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mov ebx,ecx ;Save copy of mantissa
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shl ebx,8 ;Normalize
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shr ecx,7 ;Bring exponent down
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and ecx,0FFH shl 16 ;Look at just exponent
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mov ch,dseg:[esi+3] ;Get sign again
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jz short ZeroOrDenorm32 ;Exponent is zero
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xor esi,esi ;Zero out the low bits
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or ebx,1 shl 31 ;Set implied bit
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cmp ecx,SexpMax shl 16
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jge NANorInf ;Max exp., must be NAN or Infinity
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add ecx,(TexpBias-SexpBias) shl 16 ;Change to extended format bias
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mov cl,bTAG_SNGL
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ret
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ZeroOrDenorm32:
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;Exponent is zero. Number is either zero or denormalized
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xor esi,esi ;Zero out the low bits
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and ebx,not (1 shl 31) ;Keep just mantissa
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jnz Norm32
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mov cl,bTAG_ZERO
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ret
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Norm32:
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add ecx,(TexpBias-SexpBias+1-31) shl 16 ;Fix up bias
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jmp FixDenorm
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NANorInf:
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;Shared by single and double real
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and ecx,bSign shl 8 ;Save only sign in ch
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or ecx,TexpMax shl 16 + bTAG_NAN ;Max exp.
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cmp ebx,1 shl 31 ;Only 1 bit set means infinity
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jnz @F
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or esi,esi
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jnz @F
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mov cl,bTAG_INF
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@@:
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ret
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;Load Double Real
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EM_ENTRY eFLD64
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eFLD64:
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push offset FldCont ;Return address
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;Fall into Load64Real
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Load64Real:
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;dseg:esi points to IEEE 64-bit real number
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;On exit:
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; mantissa in ebx:esi, exponent in high ecx, sign in ch bit 7, tag in cl
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;preserves edi.
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mov EMSEG:[PrevDataOff],esi ;Save operand pointer
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mov ecx,dseg:[esi+4] ;Get sign, exp., and high mantissa
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mov ebx,ecx ;Save copy of mantissa
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shr ecx,4 ;Bring exponent down
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and ecx,7FFH shl 16 ;Look at just exponent
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mov ch,dseg:[esi+7] ;Get sign again
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mov esi,dseg:[esi] ;Get low 32 bits of op
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jz short ZeroOrDenorm64 ;Exponent is zero
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shld ebx,esi,31-20
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shl esi,31-20 ;Normalize
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or ebx,1 shl 31 ;Set implied bit
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cmp ecx,DexpMax shl 16
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jge NANorInf ;Max exp., must be NAN or Infinity
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add ecx,(TexpBias-DexpBias) shl 16 ;Change to extended format bias
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SetNormTag:
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or esi,esi ;Any bits in low half?
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.erre bTAG_VALID eq 1
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.erre bTAG_SNGL eq 0
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setnz cl ;if low half==0 then cl=0 else cl=1
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ret
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ZeroOrDenorm64:
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;Exponent is zero. Number is either zero or denormalized
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and ebx,0FFFFFH ;Keep just mantissa
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jnz ShortNorm64 ;Are top 20 bits zero?
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or esi,esi ;Are low 32 bits zero too?
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jnz LongNorm64
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mov cl,bTAG_ZERO
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ret
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LongNorm64:
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xchg ebx,esi ;Shift up 32 bits
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sub ecx,32 shl 16 ;Correct exponent
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ShortNorm64:
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add ecx,(TexpBias-DexpBias+12-31) shl 16 ;Fix up bias
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FixDenorm:
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or EMSEG:[CURerr],Denormal ;Set Denormal Exception
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bsr edx,ebx ;Scan for MSB
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;Bit number in edx ranges from 0 to 31
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mov cl,dl
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not cl ;Convert bit number to shift count
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shld ebx,esi,cl
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shl esi,cl
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shl edx,16 ;Move exp. adjustment to high end
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add ecx,edx ;Adjust exponent
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jmp SetNormTag
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;Load Short Integer
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EM_ENTRY eFILD16
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eFILD16:
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push offset FldCont ;Return address
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;Fall into Load16Int
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Load16Int:
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;dseg:esi points to 16-bit integer
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;On exit:
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; mantissa in ebx:esi, exponent in high ecx, sign in ch bit 7, tag in cl
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;preserves edi.
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mov EMSEG:[PrevDataOff],esi ;Save operand pointer
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mov ax,dseg:[esi]
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NormInt16:
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xor esi,esi ;Extend with zero
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cwd ;extend sign through dx
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xor ax,dx
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sub ax,dx ;Take ABS() of integer
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bsr cx,ax ;Find MSB
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jz ZeroInt
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;Bit number in cx ranges from 0 to 15
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not ecx ;Convert to shift count
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shl eax,cl ;Normalize
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not ecx
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.erre TexpBias eq 0
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shl ecx,16 ;Move exponent to high half
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mov ch,dh ;Set sign
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mov ebx,eax ;Mantissa to ebx
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mov cl,bTAG_SNGL
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ret
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ZeroInt:
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xor ebx,ebx
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mov ecx,ebx
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mov cl,bTAG_ZERO
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ret
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;Load Long Integer
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EM_ENTRY eFILD32
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eFILD32:
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push offset FldCont ;Return address
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;Fall into Load32Int
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Load32Int:
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;dseg:esi points to 32-bit integer
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;On exit:
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; mantissa in ebx:esi, exponent in high ecx, sign in ch bit 7, tag in cl
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;preserves edi.
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mov EMSEG:[PrevDataOff],esi ;Save operand pointer
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mov eax,dseg:[esi]
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xor esi,esi ;Extend with zero
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or eax,eax ;It it zero?
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jz ZeroInt
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cdq ;extend sign through edx
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xor eax,edx
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sub eax,edx ;Take ABS() of integer
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mov ebx,eax ;Mantissa to ebx
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;BSR uses 3 clocks/bit, so speed it up by checking the top half
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;This saves 36 clocks on 386 (42 on 486sx)
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;Cost is 13 clocks on 386 if high word isn't zero (5 on 486sx)
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.erre TexpBias eq 0
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xor eax,eax ;Initialize exponent
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cmp ebx,0FFFFH ;Upper bits zero?
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ja @F
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shl ebx,16
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sub eax,16
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@@:
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bsr ecx,ebx ;Find MSB
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add eax,ecx ;Compute expoment
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not cl ;Convert bit number to shift count
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shl ebx,cl ;Normalize
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shrd ecx,eax,16 ;Move exponent to high half of ecx
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mov ch,dh ;Set sign
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mov cl,bTAG_SNGL
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ret
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;Load Quad Integer
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EM_ENTRY eFILD64
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eFILD64:
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mov EMSEG:[PrevDataOff],esi ;Save operand pointer
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mov ebx,dseg:[esi+4] ;Get high 32 bits
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mov eax,ebx ;Make copy of sign
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mov esi,dseg:[esi] ;Get low 32 bits
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mov ecx,ebx
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or ecx,esi ;Is it zero?
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jz ZeroQuad
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NormQuadInt:
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;Entry point from eFBLD
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;eax bit 31 = sign
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;ebx:esi = integer
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;edi = [CURstk]
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.erre TexpBias eq 0
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mov ax,32 ;Initialize exponent
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or ebx,ebx ;Check sign
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jz LongNormInt
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jns FindBit
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not ebx
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neg esi ;CY set if non-zero
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sbb ebx,-1 ;Add one if esi == 0
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jnz FindBit ;Check for high bits zero
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LongNormInt:
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xchg ebx,esi ;Normalize 32 bits
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xor ax,ax ;Reduce exponent by 32
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FindBit:
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;BSR uses 3 clocks/bit, so speed it up by checking the top half
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;This saves 35 clocks on 386 (41 on 486sx)
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;Cost is 11 clocks on 386 if high word isn't zero (4 on 486sx)
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cmp ebx,0FFFFH ;Upper bits zero?
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ja @F
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shld ebx,esi,16
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shl esi,16
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sub eax,16
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@@:
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bsr ecx,ebx ;Find MSB
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add eax,ecx ;Compute expoment
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not cl ;Convert bit number to shift count
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shld ebx,esi,cl ;Normalize
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shl esi,cl
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mov ecx,eax ;Move sign and exponent to ecx
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rol ecx,16 ;Swap sign and exponent halves
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or esi,esi ;Any bits in low half?
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.erre bTAG_VALID eq 1
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.erre bTAG_SNGL eq 0
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setnz cl ;if low half==0 then cl=0 else cl=1
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jmp FldCont
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ZeroQuad:
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mov cl,bTAG_ZERO
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jmp FldCont
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;Load Temp Real
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PrevStackWrap edi,Ld80 ;Tied to PrevStackElem below
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EM_ENTRY eFLD80
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eFLD80:
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;This is not considered an "arithmetic" operation (like all the others are),
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;so SNANs do NOT cause an exception. However, unsupported formats do.
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mov EMSEG:[PrevDataOff],esi ;Save operand pointer
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PrevStackElem edi,Ld80 ;Point to receiving location
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cmp EMSEG:[edi].bTag,bTAG_EMPTY ;Is it empty?
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jnz FldErr
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LoadTempReal:
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mov ebx,dseg:[esi+4] ;Get high half of mantissa
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mov cx,dseg:[esi+8] ;Get exponent and sign
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mov esi,dseg:[esi] ;Get low half of mantissa
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mov eax,ecx
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and ch,7FH ;Mask off sign bit
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shl ecx,16 ;Move exponent to high end
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mov ch,ah ;Restore sign
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jz ZeroOrDenorm80
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;Check for unsupported format: unnormals (MSB not set)
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or ebx,ebx
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jns Unsupported
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sub ecx,(IexpBias-TexpBias) shl 16 ;Correct the bias
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cmp ecx,TexpMax shl 16
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jge NANorInf80
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SetupTag:
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or esi,esi ;Any bits in low half?
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.erre bTAG_VALID eq 1
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.erre bTAG_SNGL eq 0
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setnz cl ;if low half==0 then cl=0 else cl=1
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jmp SaveStack
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NANorInf80:
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mov cl,bTAG_NAN
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cmp ebx,1 shl 31 ;Only 1 bit set means infinity
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jnz SaveStack
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or esi,esi
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jnz SaveStack
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mov cl,bTAG_INF
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jmp SaveStack
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ZeroOrDenorm80:
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;Exponent is zero. Number is either zero or denormalized
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or ebx,ebx
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jnz ShortNorm80 ;Are top 32 bits zero?
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or esi,esi ;Are low 32 bits zero too?
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jnz LongNorm80
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mov cl,bTAG_ZERO
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jmp SaveStack
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;This code accepts and works correctly with pseudo-denormals (MSB already set)
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LongNorm80:
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xchg ebx,esi ;Shift up 32 bits
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sub ecx,32 shl 16 ;Correct exponent
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ShortNorm80:
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add ecx,(TexpBias-IexpBias+1-31) shl 16 ;Fix up bias
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bsr edx,ebx ;Scan for MSB
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;Bit number in edx ranges from 0 to 31
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mov cl,dl
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not cl ;Convert bit number to shift count
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shld ebx,esi,cl
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shl esi,cl
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shl edx,16 ;Move exp. adjustment to high end
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add ecx,edx ;Adjust exponent
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jmp SetUpTag
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