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mpi_x86.asm - assembly language implementation of s_mpv_ functions.
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;
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; mpi_x86.asm - assembly language implementation of s_mpv_ functions.
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;
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; The contents of this file are subject to the Mozilla Public
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; License Version 1.1 (the "License"); you may not use this file
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; except in compliance with the License. You may obtain a copy of
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; the License at http://www.mozilla.org/MPL/
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;
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; Software distributed under the License is distributed on an "AS
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; IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
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; implied. See the License for the specific language governing
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; rights and limitations under the License.
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;
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; The Original Code is the Netscape security libraries.
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;
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; The Initial Developer of the Original Code is Netscape
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; Communications Corporation. Portions created by Netscape are
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; Copyright (C) 2000 Netscape Communications Corporation. All
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; Rights Reserved.
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;
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; Contributor(s):
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;
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; Alternatively, the contents of this file may be used under the
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; terms of the GNU General Public License Version 2 or later (the
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; "GPL"), in which case the provisions of the GPL are applicable
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; instead of those above. If you wish to allow use of your
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; version of this file only under the terms of the GPL and not to
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; allow others to use your version of this file under the MPL,
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; indicate your decision by deleting the provisions above and
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; replace them with the notice and other provisions required by
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; the GPL. If you do not delete the provisions above, a recipient
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; may use your version of this file under either the MPL or the
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; GPL.
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; $Id: mpi_x86.asm,v 1.1 2000/09/02 05:33:15 nelsonb%netscape.com Exp $
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;
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.386p
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.MODEL FLAT
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ASSUME CS: FLAT, DS: FLAT, SS: FLAT
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_TEXT SEGMENT
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; ebp - 36: caller's esi
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; ebp - 32: caller's edi
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; ebp - 28:
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; ebp - 24:
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; ebp - 20:
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; ebp - 16:
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; ebp - 12:
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; ebp - 8:
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; ebp - 4:
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; ebp + 0: caller's ebp
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; ebp + 4: return address
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; ebp + 8: a argument
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; ebp + 12: a_len argument
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; ebp + 16: b argument
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; ebp + 20: c argument
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; registers:
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; eax:
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; ebx: carry
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; ecx: a_len
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; edx:
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; esi: a ptr
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; edi: c ptr
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public _s_mpv_mul_d
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_s_mpv_mul_d PROC NEAR
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push ebp
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mov ebp,esp
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sub esp,28
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push edi
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push esi
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push ebx
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mov ebx,0 ; carry = 0
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mov ecx,[ebp+12] ; ecx = a_len
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mov edi,[ebp+20]
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cmp ecx,0
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je L_2 ; jmp if a_len == 0
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mov esi,[ebp+8] ; esi = a
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cld
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L_1:
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lodsd ; eax = [ds:esi]; esi += 4
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mov edx,[ebp+16] ; edx = b
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mul edx ; edx:eax = Phi:Plo = a_i * b
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add eax,ebx ; add carry (ebx) to edx:eax
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adc edx,0
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mov ebx,edx ; high half of product becomes next carry
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stosd ; [es:edi] = ax; edi += 4;
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dec ecx ; --a_len
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jnz L_1 ; jmp if a_len != 0
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L_2:
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mov [edi],ebx ; *c = carry
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pop ebx
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pop esi
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pop edi
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leave
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ret
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nop
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_s_mpv_mul_d ENDP
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; ebp - 36: caller's esi
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; ebp - 32: caller's edi
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; ebp - 28:
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; ebp - 24:
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; ebp - 20:
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; ebp - 16:
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; ebp - 12:
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; ebp - 8:
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; ebp - 4:
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; ebp + 0: caller's ebp
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; ebp + 4: return address
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; ebp + 8: a argument
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; ebp + 12: a_len argument
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; ebp + 16: b argument
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; ebp + 20: c argument
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; registers:
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; eax:
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; ebx: carry
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; ecx: a_len
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; edx:
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; esi: a ptr
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; edi: c ptr
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public _s_mpv_mul_d_add
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_s_mpv_mul_d_add PROC NEAR
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push ebp
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mov ebp,esp
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sub esp,28
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push edi
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push esi
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push ebx
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mov ebx,0 ; carry = 0
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mov ecx,[ebp+12] ; ecx = a_len
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mov edi,[ebp+20]
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cmp ecx,0
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je L_4 ; jmp if a_len == 0
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mov esi,[ebp+8] ; esi = a
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cld
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L_3:
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lodsd ; eax = [ds:esi]; esi += 4
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mov edx,[ebp+16] ; edx = b
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mul edx ; edx:eax = Phi:Plo = a_i * b
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add eax,ebx ; add carry (ebx) to edx:eax
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adc edx,0
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mov ebx,[edi] ; add in current word from *c
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add eax,ebx
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adc edx,0
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mov ebx,edx ; high half of product becomes next carry
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stosd ; [es:edi] = ax; edi += 4;
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dec ecx ; --a_len
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jnz L_3 ; jmp if a_len != 0
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L_4:
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mov [edi],ebx ; *c = carry
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pop ebx
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pop esi
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pop edi
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leave
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ret
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nop
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_s_mpv_mul_d_add ENDP
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; ebp - 36: caller's esi
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; ebp - 32: caller's edi
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; ebp - 28:
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; ebp - 24:
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; ebp - 20:
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; ebp - 16:
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; ebp - 12:
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; ebp - 8:
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; ebp - 4:
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; ebp + 0: caller's ebp
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; ebp + 4: return address
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; ebp + 8: a argument
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; ebp + 12: a_len argument
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; ebp + 16: b argument
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; ebp + 20: c argument
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; registers:
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; eax:
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; ebx: carry
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; ecx: a_len
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; edx:
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; esi: a ptr
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; edi: c ptr
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public _s_mpv_mul_d_add_prop
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_s_mpv_mul_d_add_prop PROC NEAR
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push ebp
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mov ebp,esp
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sub esp,28
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push edi
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push esi
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push ebx
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mov ebx,0 ; carry = 0
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mov ecx,[ebp+12] ; ecx = a_len
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mov edi,[ebp+20]
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cmp ecx,0
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je L_6 ; jmp if a_len == 0
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cld
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mov esi,[ebp+8] ; esi = a
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L_5:
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lodsd ; eax = [ds:esi]; esi += 4
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mov edx,[ebp+16] ; edx = b
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mul edx ; edx:eax = Phi:Plo = a_i * b
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add eax,ebx ; add carry (ebx) to edx:eax
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adc edx,0
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mov ebx,[edi] ; add in current word from *c
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add eax,ebx
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adc edx,0
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mov ebx,edx ; high half of product becomes next carry
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stosd ; [es:edi] = ax; edi += 4;
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dec ecx ; --a_len
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jnz L_5 ; jmp if a_len != 0
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L_6:
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cmp ebx,0 ; is carry zero?
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jz L_8
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mov eax,[edi] ; add in current word from *c
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add eax,ebx
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stosd ; [es:edi] = ax; edi += 4;
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jnc L_8
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L_7:
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mov eax,[edi] ; add in current word from *c
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adc eax,0
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stosd ; [es:edi] = ax; edi += 4;
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jc L_7
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L_8:
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pop ebx
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pop esi
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pop edi
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leave
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ret
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nop
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_s_mpv_mul_d_add_prop ENDP
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; ebp - 20: caller's esi
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; ebp - 16: caller's edi
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; ebp - 12:
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; ebp - 8: carry
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; ebp - 4: a_len local
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; ebp + 0: caller's ebp
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; ebp + 4: return address
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; ebp + 8: pa argument
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; ebp + 12: a_len argument
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; ebp + 16: ps argument
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; ebp + 20:
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; registers:
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; eax:
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; ebx: carry
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; ecx: a_len
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; edx:
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; esi: a ptr
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; edi: c ptr
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public _s_mpv_sqr_add_prop
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_s_mpv_sqr_add_prop PROC NEAR
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push ebp
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mov ebp,esp
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sub esp,12
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push edi
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push esi
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push ebx
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mov ebx,0 ; carry = 0
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mov ecx,[ebp+12] ; a_len
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mov edi,[ebp+16] ; edi = ps
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cmp ecx,0
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je L_11 ; jump if a_len == 0
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cld
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mov esi,[ebp+8] ; esi = pa
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L_10:
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lodsd ; eax = [ds:si]; si += 4;
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mul eax
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add eax,ebx ; add "carry"
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adc edx,0
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mov ebx,[edi]
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add eax,ebx ; add low word from result
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mov ebx,[edi+4]
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stosd ; [es:di] = eax; di += 4;
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adc edx,ebx ; add high word from result
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mov ebx,0
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mov eax,edx
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adc ebx,0
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stosd ; [es:di] = eax; di += 4;
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dec ecx ; --a_len
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jnz L_10 ; jmp if a_len != 0
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L_11:
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cmp ebx,0 ; is carry zero?
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jz L_14
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mov eax,[edi] ; add in current word from *c
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add eax,ebx
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stosd ; [es:edi] = ax; edi += 4;
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jnc L_14
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L_12:
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mov eax,[edi] ; add in current word from *c
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adc eax,0
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stosd ; [es:edi] = ax; edi += 4;
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jc L_12
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L_14:
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pop ebx
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pop esi
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pop edi
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leave
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ret
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nop
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_s_mpv_sqr_add_prop ENDP
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;
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; Divide 64-bit (Nhi,Nlo) by 32-bit divisor, which must be normalized
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; so its high bit is 1. This code is from NSPR.
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;
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; mp_err s_mpv_div_2dx1d(mp_digit Nhi, mp_digit Nlo, mp_digit divisor,
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; mp_digit *qp, mp_digit *rp)
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; Dump of assembler code for function s_mpv_div_2dx1d:
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;
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; esp + 0: Caller's ebx
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; esp + 4: return address
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; esp + 8: Nhi argument
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; esp + 12: Nlo argument
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; esp + 16: divisor argument
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; esp + 20: qp argument
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; esp + 24: rp argument
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; registers:
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; eax:
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; ebx: carry
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; ecx: a_len
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; edx:
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; esi: a ptr
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; edi: c ptr
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;
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public _s_mpv_div_2dx1d
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_s_mpv_div_2dx1d PROC NEAR
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push ebx
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mov edx,[esp+8]
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mov eax,[esp+12]
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mov ebx,[esp+16]
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div ebx
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mov ebx,[esp+20]
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mov [ebx],eax
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mov ebx,[esp+24]
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mov [ebx],edx
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xor eax,eax ; return zero
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pop ebx
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ret
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nop
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_s_mpv_div_2dx1d ENDP
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_TEXT ENDS
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END
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