;******************************************************************************* ;llmul.asm - long multiply routine ; ; Copyright (c) Microsoft Corporation. All rights reserved. ; ;Purpose: ; Defines long multiply routine ; Both signed and unsigned routines are the same, since multiply's ; work out the same in 2's complement ; creates the following routine: ; __allmul ; ;******************************************************************************* .686p .mmx .xmm .model flat,C .code assume ds:flat assume es:flat assume ss:flat assume fs:nothing assume gs:nothing include hal.inc ;*** ;llmul - long multiply routine ; ;Purpose: ; Does a long multiply (same for signed/unsigned) ; Parameters are not changed. ; ;Entry: ; Parameters are passed on the stack: ; 1st pushed: multiplier (QWORD) ; 2nd pushed: multiplicand (QWORD) ; ;Exit: ; EDX:EAX - product of multiplier and multiplicand ; NOTE: parameters are removed from the stack ; ;Uses: ; ECX ; ;Exceptions: ; ;******************************************************************************* _allmul PROC NEAR A EQU [esp + 4] ; stack address of a B EQU [esp + 12] ; stack address of b ; ; AHI, BHI : upper 32 bits of A and B ; ALO, BLO : lower 32 bits of A and B ; ; ALO * BLO ; ALO * BHI ; + BLO * AHI ; --------------------- ; mov eax,HIWORD(A) mov ecx,HIWORD(B) or ecx,eax ;test for both hiwords zero. mov ecx,LOWORD(B) jnz short hard ;both are zero, just mult ALO and BLO mov eax,LOWORD(A) mul ecx ret 16 ; callee restores the stack hard: push ebx ; must redefine A and B since esp has been altered A2 EQU [esp + 8] ; stack address of a B2 EQU [esp + 16] ; stack address of b mul ecx ;eax has AHI, ecx has BLO, so AHI * BLO mov ebx,eax ;save result mov eax,LOWORD(A2) mul dword ptr HIWORD(B2) ;ALO * BHI add ebx,eax ;ebx = ((ALO * BHI) + (AHI * BLO)) mov eax,LOWORD(A2) ;ecx = BLO mul ecx ;so edx:eax = ALO*BLO add edx,ebx ;now edx has all the LO*HI stuff pop ebx ret 16 ; callee restores the stack _allmul ENDP end