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315 lines
11 KiB
315 lines
11 KiB
;***
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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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; Revision History:
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; 01-26-01 PML Pentium4 merge.
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; 02-25-01 PML Fix pow(+/-0,-denorm)
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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 elem87.inc
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.list
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_FUNC_ equ <pow>
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_FUNC_DEF_ equ <_pow_default>
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_FUNC_P4_ equ <_pow_pentium4>
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_FUNC_P4_EXTERN_ equ 1
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include disp_pentium4.inc
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_FUNC_ equ <_CIpow>
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_FUNC_DEF_ equ <_CIpow_default>
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_FUNC_P4_ equ <_CIpow_pentium4>
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include disp_pentium4.inc
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.data
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globalQ _half, 03fe0000000000000R
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POW_name db 'pow',0
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extrn _infinity:tbyte
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extrn _indefinite:tbyte
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extrn __fastflag:dword
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CODESEG
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extrn _startTwoArgErrorHandling:near
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extrn _fload_withFB:near
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extrn _convertTOStoQNaN:near
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extrn _checkTOS_withFB:near
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extrn _check_range_exit:near
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extrn _fast_exit:near
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extrn _load_CW:near
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extrn _powhlp:near
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extrn _twoToTOS:near
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; arg1(base) arg2(exponent) ErrorType result
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;-----------------------------------------------------------
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;infinity not NaN called powhlp()
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;not NaN infinity called powhlp()
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;QNaN not SNaN DOMAIN_QNAN QNaN
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;SNaN any DOMAIN
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;
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;*0 *0 - 1
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;*0 positive,not odd - +0
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;+0 positive, odd - +0
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;-0 positive, odd - -0
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;*0 negative,not odd SING infinity
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;+0 negative, odd SING infinity
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;-0 negative, odd SING -infinity
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;negative non-integer DOMAIN indefinite
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;indefinite is like QNaN
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;denormal(53) fld converts it to normal (64 bits)
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;
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; * in table above stands for both + and -
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;
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; if exponent field of result is 0, error type is set to UNDERFLOW
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; if result is infinity, error type is set to OVERFLOW
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public _CIpow_default,_pow_default
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_CIpow_default proc
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sub esp,2*DBLSIZE+4 ; prepare place for argument
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fxch st(1)
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fstp qword ptr [esp] ; base
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fst qword ptr [esp+8] ; exponent
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mov eax,[esp+12] ; high dword of exponent
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call start
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add esp,2*DBLSIZE+4 ; clean stack
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ret
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_pow_default label proc
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lea edx,[esp+12] ; load exponent(arg2)
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call _fload_withFB
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start:
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mov ecx,eax ; make copy of eax
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push eax ; allocate space for Control Word
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fstcw [esp] ; store Control Word
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cmp word ptr[esp],default_CW
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je CW_is_set_to_default
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call _load_CW ; edx is destroyed
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CW_is_set_to_default:
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; at this point we have on stack: cw(4), ret_addr(4), arg1(8bytes), arg2(8bytes)
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and ecx,7ff00000H
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lea edx,[esp+8] ; edx points to arg1(base)
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cmp ecx,7ff00000H
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je special_exponent
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call _fload_withFB ; edx already initialized
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jz special_base
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test eax,7ff00000H
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jz test_if_we_have_zero_base
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base_is_not_zero:
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mov cl,[esp+15] ; cl will contain sign
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and cl,80H ; test sign of base
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jnz test_if_exp_is_int
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normal: ; denormal is like normal
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fyl2x ; compute y*log2(x)
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call _twoToTOS
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cmp cl,1 ; power was odd and base<0 ?
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jnz exit
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fchs ; if yes, we should change sign
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exit:
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cmp __fastflag,0
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jnz _fast_exit
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; prepare in registers arguments for math_exit
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lea ecx,[POW_name]
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mov edx,OP_POW
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jmp _check_range_exit
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_ErrorHandling:
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cmp __fastflag,0
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jnz _fast_exit
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lea ecx,[POW_name]
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mov edx,OP_POW
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call _startTwoArgErrorHandling
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pop edx ; remove saved CW from stack
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ret
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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; some special cases
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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; 1.One of arguments is NaN
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exponent_is_NAN:
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lea edx,[esp+8] ; pointer to arg1(base)
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call _fload_withFB ; load arg1 to FPU stack
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test byte ptr[esp+22],08H ; test if arg2(exponent) is SNaN
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jnz SNaN_detected
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inc ecx ; ecx!=0 when one of args is QNaN
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jmp test_base
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SNaN_detected:
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fadd
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mov eax,DOMAIN
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jmp _ErrorHandling
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base_is_NAN:
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test byte ptr[esp+14],08H ; is it SNaN
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jnz SNaN_detected
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one_of_args_is_QNaN:
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fadd ; one of args is QNaN, and second is not SNaN
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mov eax,DOMAIN_QNAN
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jmp _ErrorHandling
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special_base:
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; both arguments are loaded to FPU stack
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xor ecx,ecx
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jmp test_base
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special_exponent:
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; only one argument is loaded to FPU stack
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xor ecx,ecx ; we use ecx to set flags
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and eax,000fffffH ; eax=high
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or eax,[esp+16] ; test whether mantissa is zero
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jne exponent_is_NAN
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lea edx,[esp+8] ; pointer to arg1(base)
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call _fload_withFB ; load arg1(base) to FPU stack
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test_base: ; arg2 may be inf, QNaN or normal
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; both arguments are loaded to FPU stack
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mov eax,[esp+12] ; arg1 high
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mov edx,eax
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and eax,7ff00000H
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and edx,000fffffH ; test mantissa of arg2
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cmp eax,7ff00000H
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jne end_of_tests
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or edx,[esp+8]
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jnz base_is_NAN ; arg1 is NaN,
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end_of_tests:
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test ecx,ecx
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jnz one_of_args_is_QNaN ; base is QNaN
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; one of args is infinity and second is not NaN. In this case we use powhlp()
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;_usepowhlp
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sub esp, SBUFSIZE+8 ; get storage for _retval and savebuf
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mov ecx, esp
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push ecx ; push address for result
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sub esp, 16
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fstp qword ptr [esp]
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fstp qword ptr [esp+8]
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fsave [ecx+8]
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call _powhlp
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add esp, 16 ; clear arguments if _cdecl.
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pop ecx
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frstor [ecx+8]
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fld qword ptr [ecx] ; load result on the NDP stack
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add esp, SBUFSIZE+8 ; get rid of storage
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test eax,eax
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jz _fast_exit
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mov eax,DOMAIN
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jmp _ErrorHandling
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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; 2. Base has zero exponent field
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;
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test_if_we_have_zero_base:
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mov eax,[esp+12]
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and eax,000fffffH
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or eax,[esp+8]
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jnz base_is_not_zero
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; at this point we have two arguments on FPU stack.
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; We know that TOS is zero, and arg2 is not special.
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; We disinguish 3 cases:
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; (1) exponent is zero
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; (2) exponent is odd
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; (3) none of above
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fstp st(0) ; remove zero from FPU stack
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mov eax,[esp+20] ; test if arg2 is also zero
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and eax,7fffffffh
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or eax,[esp+16]
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jz zero_to_zero
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; check whether exponent is odd
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call _test_whether_TOS_is_int
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; cl=1 if exponent is odd, 2 - if even and 0 otherwise
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mov ch,[esp+15]
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shr ch,7 ; ch==1 iff base is negative
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test [esp+23],80H ; check sign of exponent
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jz exp_is_positive
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; exponent is negative
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fld [_infinity]
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test cl,ch
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jz ret_inf
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fchs ; base <0 and exponent is negative odd
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ret_inf:
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mov eax,SING
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jmp _ErrorHandling
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exp_is_positive: ; eax=error_code
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fldz
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test cl,ch
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jz _fast_exit
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fchs ; base <0 and exponent positive is odd
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jmp _fast_exit ; return -0.0
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zero_to_zero: ; arg1 and arg2 are zero
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fstp st(0) ; remove useless argument from FPU stack
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fld1
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jmp _fast_exit
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;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;3. Base is negative.
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;
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; If exponent is not integer it's a DOMAIN error
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;
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test_if_exp_is_int:
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fld st(1)
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call _test_whether_TOS_is_int
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fchs
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test cl,cl
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jnz normal
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fstp st(0)
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fstp st(0)
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fld [_indefinite]
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mov eax,DOMAIN
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jmp _ErrorHandling
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;
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; _test_whether_TOS_is_int
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;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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; returns in cl : 0,1,2 if TOS is non-int, odd int or even int respectively
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;
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_test_whether_TOS_is_int:
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fld st(0) ; duplicate stack top
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frndint
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fcomp ; is TOS integer???
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mov cl,0 ; prepare return value
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fstsw ax
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sahf
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jne _not_int ; TOS is not integer
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fmul [_half]
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inc cl ; cl>0, when exponent is integer
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fld st(0) ; (exponent/2)
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frndint
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fcompp ; check if (exponent/2)==(int)(exponent/2)
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fstsw ax
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sahf
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jne _odd
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inc cl ; sign that exponent is even
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_odd:
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ret
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_not_int:
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fstp st(0)
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ret
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_CIpow_default endp
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end
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