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316 lines
8.0 KiB
316 lines
8.0 KiB
#include <limits.h>
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#include "lsidefs.h"
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#include "zqfromza.h"
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#ifdef _X86_
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/* =========================================================== */
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/* */
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/* Functions implemented on Intel X86 Assember */
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/* */
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/* =========================================================== */
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#define HIWORD(x) DWORD PTR [x+4]
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#define LOWORD(x) DWORD PTR [x]
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long ZqFromZa_Asm (long dzqInch, long za)
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{
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long result;
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__asm
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{
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mov eax, za;
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cmp eax, 0
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jge POSITIVE
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neg eax
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mul dzqInch;
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add eax, czaUnitInch / 2
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mov ecx, czaUnitInch
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adc edx, 0
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div ecx;
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neg eax
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jmp RETURN
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POSITIVE:
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mul dzqInch;
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add eax, czaUnitInch / 2
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mov ecx, czaUnitInch
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adc edx, 0
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div ecx;
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RETURN:
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mov result, eax
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};
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/*
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Assert (result == ZqFromZa_C (dzqInch, za));
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*/
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return result;
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}
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/* D I V 6 4 _ A S M */
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/*----------------------------------------------------------------------------
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%%Function: Div64_Asm
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%%Contact: antons
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Intel assembler implementation of 64-bit division. The
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orignal code was taken from lldiv.asm (VC++ 6.0).
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----------------------------------------------------------------------------*/
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__int64 Div64_Asm (__int64 DVND, __int64 DVSR)
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{
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__int64 result;
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__asm {
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xor edi,edi // result sign assumed positive
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mov eax,HIWORD(DVND) // hi word of a
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or eax,eax // test to see if signed
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jge L1 // skip rest if a is already positive
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inc edi // complement result sign flag
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mov edx,LOWORD(DVND) // lo word of a
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neg eax // make a positive
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neg edx
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sbb eax,0
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mov HIWORD(DVND),eax // save positive value
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mov LOWORD(DVND),edx
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L1:
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mov eax,HIWORD(DVSR) // hi word of b
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or eax,eax // test to see if signed
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jge L2 // skip rest if b is already positive
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inc edi // complement the result sign flag
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mov edx,LOWORD(DVSR) // lo word of a
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neg eax // make b positive
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neg edx
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sbb eax,0
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mov HIWORD(DVSR),eax // save positive value
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mov LOWORD(DVSR),edx
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L2:
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// Now do the divide. First look to see if the divisor is less than 4194304K.
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// If so, then we can use a simple algorithm with word divides, otherwise
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// things get a little more complex.
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//
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// NOTE - eax currently contains the high order word of DVSR
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or eax,eax // check to see if divisor < 4194304K
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jnz L3 // nope, gotta do this the hard way
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mov ecx,LOWORD(DVSR) // load divisor
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mov eax,HIWORD(DVND) // load high word of dividend
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xor edx,edx
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div ecx // eax <- high order bits of quotient
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mov ebx,eax // save high bits of quotient
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mov eax,LOWORD(DVND) // edx:eax <- remainder:lo word of dividend
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div ecx // eax <- low order bits of quotient
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mov edx,ebx // edx:eax <- quotient
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jmp L4 // set sign, restore stack and return
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//
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// Here we do it the hard way. Remember, eax contains the high word of DVSR
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//
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L3:
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mov ebx,eax // ebx:ecx <- divisor
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mov ecx,LOWORD(DVSR)
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mov edx,HIWORD(DVND) // edx:eax <- dividend
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mov eax,LOWORD(DVND)
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L5:
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shr ebx,1 // shift divisor right one bit
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rcr ecx,1
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shr edx,1 // shift dividend right one bit
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rcr eax,1
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or ebx,ebx
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jnz L5 // loop until divisor < 4194304K
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div ecx // now divide, ignore remainder
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mov esi,eax // save quotient
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/*
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// We may be off by one, so to check, we will multiply the quotient
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// by the divisor and check the result against the orignal dividend
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// Note that we must also check for overflow, which can occur if the
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// dividend is close to 2**64 and the quotient is off by 1.
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*/
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mul HIWORD(DVSR) // QUOT * HIWORD(DVSR)
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mov ecx,eax
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mov eax,LOWORD(DVSR)
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mul esi // QUOT * LOWORD(DVSR)
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add edx,ecx // EDX:EAX = QUOT * DVSR
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jc L6 // carry means Quotient is off by 1
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//
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// do long compare here between original dividend and the result of the
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// multiply in edx:eax. If original is larger or equal, we are ok, otherwise
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// subtract one (1) from the quotient.
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//
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cmp edx,HIWORD(DVND) // compare hi words of result and original
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ja L6 // if result > original, do subtract
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jb L7 // if result < original, we are ok
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cmp eax,LOWORD(DVND) // hi words are equal, compare lo words
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jbe L7 // if less or equal we are ok, else subtract
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L6:
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dec esi // subtract 1 from quotient
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L7:
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xor edx,edx // edx:eax <- quotient
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mov eax,esi
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//
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// Just the cleanup left to do. edx:eax contains the quotient. Set the sign
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// according to the save value, cleanup the stack, and return.
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//
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L4:
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dec edi // check to see if result is negative
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jnz L8 // if EDI == 0, result should be negative
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neg edx // otherwise, negate the result
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neg eax
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sbb edx,0
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//
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// Restore the saved registers and return.
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//
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L8:
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mov HIWORD(result),edx
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mov LOWORD(result),eax
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}; /* ASM */
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return result;
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}
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/* M U L 6 4 _ A S M */
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/*----------------------------------------------------------------------------
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%%Function: Mul64_Asm
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%%Contact: antons
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Intel assembler implementation of 64-bit multiplication. The
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orignal code was taken from llmul.asm (VC++ 6.0).
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----------------------------------------------------------------------------*/
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__int64 Mul64_Asm (__int64 A, __int64 B)
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{
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__int64 result;
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__asm {
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mov eax,HIWORD(A)
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mov ecx,LOWORD(B)
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mul ecx // eax has AHI, ecx has BLO, so AHI * BLO
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mov esi,eax // save result
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mov eax,LOWORD(A)
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mul HIWORD(B) // ALO * BHI
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add esi,eax // ebx = ((ALO * BHI) + (AHI * BLO))
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mov eax,LOWORD(A) // ecx = BLO
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mul ecx // so edx:eax = ALO*BLO
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add edx,esi // now edx has all the LO*HI stuff
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mov HIWORD(result),edx
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mov LOWORD(result),eax
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}; /* ASM */
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return result;
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}
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/* =========================================================== */
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/* */
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/* End of Assembler functions */
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/* */
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/* =========================================================== */
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#endif /* _X86_ */
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long ZqFromZa_C (long dzqInch, long za)
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{
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long cInches;
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long zaExtra;
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if (za < 0)
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{
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Assert (((long) -za) > 0); /* Check for overflow */
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return -ZqFromZa_C (dzqInch, -za);
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};
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Assert(0 <= za);
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Assert(0 < dzqInch && dzqInch < zqLim);
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Assert(0 < czaUnitInch);
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cInches = za / czaUnitInch;
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zaExtra = za % czaUnitInch;
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return (cInches * dzqInch) +
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((zaExtra * dzqInch) + (czaUnitInch/2)) / czaUnitInch;
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}
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long ZaFromZq(long dzqInch, long zq)
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{
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long cInches;
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long zqExtra;
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if (zq < 0)
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return -ZaFromZq(dzqInch, -zq);
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Assert(0 <= zq);
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Assert(0 < dzqInch && dzqInch < zqLim);
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Assert(0 < czaUnitInch);
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cInches = zq / dzqInch;
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zqExtra = zq % dzqInch;
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return (cInches * czaUnitInch) +
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((zqExtra * czaUnitInch) + ((unsigned long) dzqInch/2)) / dzqInch;
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}
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long LsLwMultDivR(long l, long lNumer, long lDenom)
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{
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__int64 llT;
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Assert(lDenom != 0);
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if (lDenom == 0) /* this is really sloppy! Don't depend on this! */
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return LONG_MAX;
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if (l == 0)
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return 0;
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if (lNumer == lDenom)
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return l;
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llT = Mul64 (l, lNumer);
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if ( (l ^ lNumer ^ lDenom) < 0) /* xor sign bits to give result sign */
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llT -= lDenom / 2;
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else
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llT += lDenom / 2;
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if ((__int64)(long)llT == llT) /* Did the multiply fit in 32-bits */
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return ( ((long)llT) / lDenom); /* If so, do a 32-bit divide. */
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llT = Div64 (llT, lDenom);
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if (llT > LONG_MAX)
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return LONG_MAX;
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else if (llT < LONG_MIN)
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return LONG_MIN;
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else
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return (long) llT;
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}
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