//==========================================================================; // // THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY // KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A PARTICULAR // PURPOSE. // // Copyright (c) 1993, 1994 Microsoft Corporation. All Rights Reserved. // //--------------------------------------------------------------------------; // // muldiv32.c // // Description: math routines for 32 bit signed and unsiged numbers. // // MulDiv32(a,b,c) = (a * b) / c (round down, signed) // // MulDivRD(a,b,c) = (a * b) / c (round down, unsigned) // MulDivRN(a,b,c) = (a * b + c/2) / c (round nearest, unsigned) // MulDivRU(a,b,c) = (a * b + c-1) / c (round up, unsigned) // // History: // 9/21/93 cjp [curtisp] // 9/23/93 stl [toddla] // //==========================================================================; #include #include "muldiv32.h" #if !defined(WIN32) && !defined(_WIN32) #pragma warning(disable:4035 4704) #define ASM66 _asm _emit 0x66 _asm #define DB _asm _emit #define EAX_TO_DXAX \ DB 0x66 \ DB 0x0F \ DB 0xA4 \ DB 0xC2 \ DB 0x10 //--------------------------------------------------------------------------; // // LONG MulDiv32(a,b,c) = (a * b) / c // //--------------------------------------------------------------------------; LONG FAR PASCAL MulDiv32(LONG a,LONG b,LONG c) { ASM66 mov ax,word ptr a // mov eax, a ASM66 mov bx,word ptr b // mov ebx, b ASM66 mov cx,word ptr c // mov ecx, c ASM66 imul bx // imul ebx ASM66 idiv cx // idiv ecx EAX_TO_DXAX } // MulDiv32() //--------------------------------------------------------------------------; // // DWORD MulDivRN(a,b,c) = (a * b + c/2) / c // //--------------------------------------------------------------------------; DWORD FAR PASCAL MulDivRN(DWORD a,DWORD b,DWORD c) { ASM66 mov ax,word ptr a // mov eax, a ASM66 mov bx,word ptr b // mov ebx, b ASM66 mov cx,word ptr c // mov ecx, c ASM66 mul bx // mul ebx ASM66 mov bx,cx // mov ebx,ecx ASM66 shr bx,1 // sar ebx,1 ASM66 add ax,bx // add eax,ebx ASM66 adc dx,0 // adc edx,0 ASM66 div cx // div ecx EAX_TO_DXAX } // MulDiv32() //--------------------------------------------------------------------------; // // DWORD MulDivRU(a,b,c) = (a * b + c-1) / c // //--------------------------------------------------------------------------; DWORD FAR PASCAL MulDivRU(DWORD a,DWORD b,DWORD c) { ASM66 mov ax,word ptr a // mov eax, a ASM66 mov bx,word ptr b // mov ebx, b ASM66 mov cx,word ptr c // mov ecx, c ASM66 mul bx // mul ebx ASM66 mov bx,cx // mov ebx,ecx ASM66 dec bx // dec ebx ASM66 add ax,bx // add eax,ebx ASM66 adc dx,0 // adc edx,0 ASM66 div cx // div ecx EAX_TO_DXAX } // MulDivRU32() //--------------------------------------------------------------------------; // // DWORD MulDivRD(a,b,c) = (a * b) / c // //--------------------------------------------------------------------------; DWORD FAR PASCAL MulDivRD(DWORD a,DWORD b,DWORD c) { ASM66 mov ax,word ptr a // mov eax, a ASM66 mov bx,word ptr b // mov ebx, b ASM66 mov cx,word ptr c // mov ecx, c ASM66 mul bx // mul ebx ASM66 div cx // div ecx EAX_TO_DXAX } // MulDivRD32() #pragma warning(default:4035 4704) #else // WIN32 #include //--------------------------------------------------------------------------; // // LONG MulDiv32(a,b,c) = (a * b) / c // //--------------------------------------------------------------------------; LONG FAR PASCAL MulDiv32(LONG a,LONG b,LONG c) { LARGE_INTEGER lRemain; return LargeIntegerDivide( EnlargedIntegerMultiply(a,b), ConvertLongToLargeInteger(c), &lRemain).LowPart; } // MulDiv32() //--------------------------------------------------------------------------; // // DWORD MulDivRD(a,b,c) = (a * b) / c // //--------------------------------------------------------------------------; DWORD FAR PASCAL MulDivRD(DWORD a,DWORD b,DWORD c) { return ExtendedLargeIntegerDivide( EnlargedUnsignedMultiply(a,b), c, &a).LowPart; } // MulDivRD() //--------------------------------------------------------------------------; // // DWORD MulDivRU(a,b,c) = (a * b + c-1) / c // //--------------------------------------------------------------------------; DWORD FAR PASCAL MulDivRU(DWORD a,DWORD b,DWORD c) { return ExtendedLargeIntegerDivide( LargeIntegerAdd( EnlargedUnsignedMultiply(a,b), ConvertUlongToLargeInteger(c-1)), c,&a).LowPart; } // MulDivRU() #if 0 // we use Win32 GDI MulDiv function, not this. //--------------------------------------------------------------------------; // // DWORD MulDivRN(a,b,c) = (a * b + c/2) / c // //--------------------------------------------------------------------------; DWORD FAR PASCAL MulDivRN(DWORD a,DWORD b,DWORD c) { return ExtendedLargeIntegerDivide( LargeIntegerAdd( EnlargedUnsignedMultiply(a,b), ConvertUlongToLargeInteger(c/2)), c,&a).LowPart; } // MulDivRN() #endif #endif // WIN32