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#include "xmlvm.h"
#include "org_apache_harmony_luni_util_NumberConverter.h"
//XMLVM_BEGIN_NATIVE_IMPLEMENTATION
#include "xmlvm-hy.h"
#include "hycomp.h"
#define RM_SIZE 21
#define STemp_SIZE 22
#define INV_LOG_OF_TEN_BASE_2 (0.30102999566398114)
//XMLVM_END_NATIVE_IMPLEMENTATION
void org_apache_harmony_luni_util_NumberConverter_bigIntDigitGeneratorInstImpl___long_int_boolean_boolean_int(JAVA_OBJECT me, JAVA_LONG n1, JAVA_INT n2, JAVA_BOOLEAN n3, JAVA_BOOLEAN n4, JAVA_INT n5)
{
//XMLVM_BEGIN_NATIVE[org_apache_harmony_luni_util_NumberConverter_bigIntDigitGeneratorInstImpl___long_int_boolean_boolean_int]
JAVA_LONG f = n1;
JAVA_INT e = n2;
JAVA_BOOLEAN isDenormalized = n3;
JAVA_BOOLEAN mantissaIsZero = n4;
JAVA_INT p = n5;
JAVA_INT RLength, SLength, TempLength, mplus_Length, mminus_Length;
JAVA_INT high, low, i;
JAVA_LONG k, firstK, U;
JAVA_LONG getCount, setCount;
JAVA_ARRAY_INT* uArray;
U_64 R[RM_SIZE], S[STemp_SIZE], mplus[RM_SIZE], mminus[RM_SIZE],Temp[STemp_SIZE];
memset (R, 0, RM_SIZE * sizeof (U_64));
memset (S, 0, STemp_SIZE * sizeof (U_64));
memset (mplus, 0, RM_SIZE * sizeof (U_64));
memset (mminus, 0, RM_SIZE * sizeof (U_64));
memset (Temp, 0, STemp_SIZE * sizeof (U_64));
if (e >= 0)
{
*R = f;
*mplus = *mminus = 1;
simpleShiftLeftHighPrecision (mminus, RM_SIZE, e);
if (f != (2 << (p - 1)))
{
simpleShiftLeftHighPrecision (R, RM_SIZE, e + 1);
*S = 2;
simpleShiftLeftHighPrecision (mplus, RM_SIZE, e);
}
else {
simpleShiftLeftHighPrecision (R, RM_SIZE, e+2);
*S = 4;
simpleShiftLeftHighPrecision (mplus, RM_SIZE, e + 1);
}
}
else {
if (isDenormalized || (f != (2 << (p - 1))))
{
*R = f << 1;
*S = 1;
simpleShiftLeftHighPrecision (S, STemp_SIZE, 1 - e);
*mplus = *mminus = 1;
}
else
{
*R = f << 2;
*S = 1;
simpleShiftLeftHighPrecision (S, STemp_SIZE, 2 - e);
*mplus = 2;
*mminus = 1;
}
}
k = (int) ceil ((e + p - 1) * INV_LOG_OF_TEN_BASE_2 - 1e-10);
if (k > 0)
{
timesTenToTheEHighPrecision (S, STemp_SIZE, k);
}
else
{
timesTenToTheEHighPrecision (R, RM_SIZE, -k);
timesTenToTheEHighPrecision (mplus, RM_SIZE, -k);
timesTenToTheEHighPrecision (mminus, RM_SIZE, -k);
}
RLength = mplus_Length = mminus_Length = RM_SIZE;
SLength = TempLength = STemp_SIZE;
memset (Temp + RM_SIZE, 0, (STemp_SIZE - RM_SIZE) * sizeof (U_64));
memcpy (Temp, R, RM_SIZE * sizeof (U_64));
while (RLength > 1 && R[RLength - 1] == 0)
--RLength;
while (mplus_Length > 1 && mplus[mplus_Length - 1] == 0)
--mplus_Length;
while (mminus_Length > 1 && mminus[mminus_Length - 1] == 0)
--mminus_Length;
while (SLength > 1 && S[SLength - 1] == 0)
--SLength;
TempLength = (RLength > mplus_Length ? RLength : mplus_Length) + 1;
addHighPrecision (Temp, TempLength, mplus, mplus_Length);
if (compareHighPrecision (Temp, TempLength, S, SLength) >= 0)
{
firstK = k;
}
else
{
firstK = k - 1;
simpleAppendDecimalDigitHighPrecision (R, ++RLength, 0);
simpleAppendDecimalDigitHighPrecision (mplus, ++mplus_Length, 0);
simpleAppendDecimalDigitHighPrecision (mminus, ++mminus_Length, 0);
while (RLength > 1 && R[RLength - 1] == 0)
--RLength;
while (mplus_Length > 1 && mplus[mplus_Length - 1] == 0)
--mplus_Length;
while (mminus_Length > 1 && mminus[mminus_Length - 1] == 0)
--mminus_Length;
}
org_apache_harmony_luni_util_NumberConverter* inst = (org_apache_harmony_luni_util_NumberConverter*)me;
org_xmlvm_runtime_XMLVMArray* uArrayObject = inst->fields.org_apache_harmony_luni_util_NumberConverter.uArray_;
uArray = uArrayObject->fields.org_xmlvm_runtime_XMLVMArray.array_;
getCount = setCount = 0;
do
{
U = 0;
for (i = 3; i >= 0; --i)
{
TempLength = SLength + 1;
Temp[SLength] = 0;
memcpy (Temp, S, SLength * sizeof (U_64));
simpleShiftLeftHighPrecision (Temp, TempLength, i);
if (compareHighPrecision (R, RLength, Temp, TempLength) >= 0)
{
subtractHighPrecision (R, RLength, Temp, TempLength);
U += 1 << i;
}
}
low = compareHighPrecision (R, RLength, mminus, mminus_Length) <= 0;
memset (Temp + RLength, 0, (STemp_SIZE - RLength) * sizeof (U_64));
memcpy (Temp, R, RLength * sizeof (U_64));
TempLength = (RLength > mplus_Length ? RLength : mplus_Length) + 1;
addHighPrecision (Temp, TempLength, mplus, mplus_Length);
high = compareHighPrecision (Temp, TempLength, S, SLength) >= 0;
if (low || high)
break;
simpleAppendDecimalDigitHighPrecision (R, ++RLength, 0);
simpleAppendDecimalDigitHighPrecision (mplus, ++mplus_Length, 0);
simpleAppendDecimalDigitHighPrecision (mminus, ++mminus_Length, 0);
while (RLength > 1 && R[RLength - 1] == 0)
--RLength;
while (mplus_Length > 1 && mplus[mplus_Length - 1] == 0)
--mplus_Length;
while (mminus_Length > 1 && mminus[mminus_Length - 1] == 0)
--mminus_Length;
uArray[setCount++] = U;
}
while (1);
simpleShiftLeftHighPrecision (R, ++RLength, 1);
if (low && !high)
uArray[setCount++] = U;
else if (high && !low)
uArray[setCount++] = U + 1;
else if (compareHighPrecision (R, RLength, S, SLength) < 0)
uArray[setCount++] = U;
else
uArray[setCount++] = U + 1;
inst->fields.org_apache_harmony_luni_util_NumberConverter.setCount_ = setCount;
inst->fields.org_apache_harmony_luni_util_NumberConverter.getCount_ = getCount;
inst->fields.org_apache_harmony_luni_util_NumberConverter.firstK_ = firstK;
//XMLVM_END_NATIVE
}
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