| /external/v8/src/ |
| D | double.h | 112 uint64_t significand = d64 & kSignificandMask; in Significand() local
114 return significand + kHiddenBit; in Significand()
116 return significand; in Significand()
209 uint64_t significand = diy_fp.f(); in DiyFpToUint64() local
211 while (significand > kHiddenBit + kSignificandMask) { in DiyFpToUint64()
212 significand >>= 1; in DiyFpToUint64()
221 while (exponent > kDenormalExponent && (significand & kHiddenBit) == 0) { in DiyFpToUint64()
222 significand <<= 1; in DiyFpToUint64()
226 if (exponent == kDenormalExponent && (significand & kHiddenBit) == 0) { in DiyFpToUint64()
231 return (significand & kSignificandMask) | in DiyFpToUint64()
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| D | bignum-dtoa.cc | 42 static int NormalizedExponent(uint64_t significand, int exponent) { in NormalizedExponent() argument
43 ASSERT(significand != 0); in NormalizedExponent()
44 while ((significand & Double::kHiddenBit) == 0) { in NormalizedExponent()
45 significand = significand << 1; in NormalizedExponent()
96 uint64_t significand = Double(v).Significand(); in BignumDtoa() local
97 bool is_even = (significand & 1) == 0; in BignumDtoa()
99 int normalized_exponent = NormalizedExponent(significand, exponent); in BignumDtoa()
453 uint64_t significand = Double(v).Significand(); in InitialScaledStartValuesNegativeExponentPositivePower() local
462 numerator->AssignUInt64(significand); in InitialScaledStartValuesNegativeExponentPositivePower()
505 uint64_t significand = Double(v).Significand(); in InitialScaledStartValuesNegativeExponentNegativePower() local
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| D | fixed-dtoa.cc | 318 uint64_t significand = Double(v).Significand(); in FastFixedDtoa() local
343 uint64_t dividend = significand; in FastFixedDtoa()
370 significand <<= exponent; in FastFixedDtoa()
371 FillDigits64(significand, buffer, length); in FastFixedDtoa()
375 uint64_t integrals = significand >> -exponent; in FastFixedDtoa()
376 uint64_t fractionals = significand - (integrals << -exponent); in FastFixedDtoa()
394 FillFractionals(significand, exponent, fractional_count, in FastFixedDtoa()
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| D | cached-powers.cc | 41 uint64_t significand; member
161 *power = DiyFp(cached_power.significand, cached_power.binary_exponent); in GetCachedPowerForBinaryExponentRange()
173 *power = DiyFp(cached_power.significand, cached_power.binary_exponent); in GetCachedPowerForDecimalExponent()
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| D | strtod.cc | 158 uint64_t significand = ReadUint64(buffer, &read_digits); in ReadDiyFp() local
160 *result = DiyFp(significand, 0); in ReadDiyFp()
165 significand++; in ReadDiyFp()
169 *result = DiyFp(significand, exponent); in ReadDiyFp()
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| /external/compiler-rt/lib/ |
| D | fixdfsi.c | 30 const rep_t significand = (aAbs & significandMask) | implicitBit; in __fixdfsi() local
34 return sign * (significand >> (significandBits - exponent)); in __fixdfsi()
47 return sign * (significand << (exponent - significandBits)); in __fixdfsi()
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| D | fixsfsi.c | 28 const rep_t significand = (aAbs & significandMask) | implicitBit; in __fixsfsi() local
32 return sign * (significand >> (significandBits - exponent)); in __fixsfsi()
45 return sign * (significand << (exponent - significandBits)); in __fixsfsi()
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| D | truncdfsf2.c | 145 const src_rep_t significand = (aRep & significandMask) | srcMinNormal; in __truncdfsf2() local
151 const bool sticky = significand << (srcBits - shift); in __truncdfsf2()
152 src_rep_t denormalizedSignificand = significand >> shift | sticky; in __truncdfsf2()
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| D | fp_lib.h | 116 static inline int normalize(rep_t *significand) { in normalize() argument
117 const int shift = rep_clz(*significand) - rep_clz(implicitBit); in normalize()
118 *significand <<= shift; in normalize()
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| /external/llvm/lib/Support/ |
| D | APFloat.cpp | 595 significand.parts = new integerPart[count]; in initialize()
602 delete [] significand.parts; in freeSignificand()
637 integerPart *significand = significandParts(); in makeNaN() local
642 APInt::tcSet(significand, 0, numParts); in makeNaN()
644 APInt::tcAssign(significand, fill->getRawData(), in makeNaN()
651 significand[part] &= ((1ULL << bitsToPreserve) - 1); in makeNaN()
653 significand[part] = 0; in makeNaN()
660 APInt::tcClearBit(significand, QNaNBit); in makeNaN()
665 if (APInt::tcIsZero(significand, numParts)) in makeNaN()
666 APInt::tcSetBit(significand, QNaNBit - 1); in makeNaN()
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| /external/kernel-headers/original/asm-x86/ |
| D | sigcontext.h | 23 unsigned short significand[4]; member
28 unsigned short significand[4]; member
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| /external/guava/guava/src/com/google/common/math/ |
| D | DoubleUtils.java | 132 long significand = Double.doubleToRawLongBits(x) & SIGNIFICAND_MASK; in scaleNormalize() local
133 return Double.longBitsToDouble(significand | ONE_BITS); in scaleNormalize()
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| D | DoubleMath.java | 167 long significand = getSignificand(x); in roundToBigInteger() local
168 BigInteger result = BigInteger.valueOf(significand).shiftLeft(exponent - SIGNIFICAND_BITS); in roundToBigInteger()
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| /external/webkit/Source/JavaScriptCore/wtf/ |
| D | DecimalNumber.h | 92 …const char* significand() const { return m_significand; } // significand contains precision charac… in significand() function
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| /external/valgrind/main/include/vki/ |
| D | vki-x86-linux.h | 198 unsigned short significand[4]; member
203 unsigned short significand[4]; member
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| /external/llvm/include/llvm/ADT/ |
| D | APFloat.h | 445 } significand; variable
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| /external/clang/include/clang/Basic/ |
| D | DiagnosticLexKinds.td | 131 "hexadecimal floating constants require a significand">;
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| /external/webkit/Source/JavaScriptCore/ |
| D | ChangeLog-2011-02-16 | 11557 (WTF::DecimalNumber::significand):
15747 (WTF::DecimalNumber::significand):
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