softfloat: export some functions
Move fpu/softfloat-macros.h to include/fpu/ Export floatx80 functions to be used by target floatx80 specific implementations. Exports: propagateFloatx80NaN(), extractFloatx80Frac(), extractFloatx80Exp(), extractFloatx80Sign(), normalizeFloatx80Subnormal(), packFloatx80(), roundAndPackFloatx80(), normalizeRoundAndPackFloatx80() Also exports packFloat32() that will be used to implement m68k fsinh, fcos, fsin, ftan operations. Signed-off-by: Laurent Vivier <laurent@vivier.eu> Reviewed-by: Richard Henderson <richard.henderson@linaro.org> Message-Id: <20180224201802.911-2-laurent@vivier.eu>
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@ -1011,8 +1011,7 @@ static floatx80 commonNaNToFloatx80(commonNaNT a, float_status *status)
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| `b' is a signaling NaN, the invalid exception is raised.
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*----------------------------------------------------------------------------*/
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static floatx80 propagateFloatx80NaN(floatx80 a, floatx80 b,
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float_status *status)
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floatx80 propagateFloatx80NaN(floatx80 a, floatx80 b, float_status *status)
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{
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flag aIsQuietNaN, aIsSignalingNaN, bIsQuietNaN, bIsSignalingNaN;
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flag aIsLargerSignificand;
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@ -93,7 +93,7 @@ this code that are retained.
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| division and square root approximations. (Can be specialized to target if
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| desired.)
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*----------------------------------------------------------------------------*/
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#include "softfloat-macros.h"
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#include "fpu/softfloat-macros.h"
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/*----------------------------------------------------------------------------
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| Functions and definitions to determine: (1) whether tininess for underflow
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@ -2192,25 +2192,6 @@ static void
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}
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/*----------------------------------------------------------------------------
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| Packs the sign `zSign', exponent `zExp', and significand `zSig' into a
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| single-precision floating-point value, returning the result. After being
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| shifted into the proper positions, the three fields are simply added
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| together to form the result. This means that any integer portion of `zSig'
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| will be added into the exponent. Since a properly normalized significand
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| will have an integer portion equal to 1, the `zExp' input should be 1 less
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| than the desired result exponent whenever `zSig' is a complete, normalized
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| significand.
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*----------------------------------------------------------------------------*/
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static inline float32 packFloat32(flag zSign, int zExp, uint32_t zSig)
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{
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return make_float32(
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( ( (uint32_t) zSign )<<31 ) + ( ( (uint32_t) zExp )<<23 ) + zSig);
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}
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/*----------------------------------------------------------------------------
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| Takes an abstract floating-point value having sign `zSign', exponent `zExp',
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| and significand `zSig', and returns the proper single-precision floating-
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@ -2490,42 +2471,6 @@ static float64
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}
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/*----------------------------------------------------------------------------
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| Returns the fraction bits of the extended double-precision floating-point
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| value `a'.
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*----------------------------------------------------------------------------*/
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static inline uint64_t extractFloatx80Frac( floatx80 a )
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{
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return a.low;
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}
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/*----------------------------------------------------------------------------
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| Returns the exponent bits of the extended double-precision floating-point
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| value `a'.
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*----------------------------------------------------------------------------*/
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static inline int32_t extractFloatx80Exp( floatx80 a )
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{
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return a.high & 0x7FFF;
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}
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/*----------------------------------------------------------------------------
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| Returns the sign bit of the extended double-precision floating-point value
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| `a'.
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*----------------------------------------------------------------------------*/
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static inline flag extractFloatx80Sign( floatx80 a )
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{
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return a.high>>15;
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}
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/*----------------------------------------------------------------------------
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| Normalizes the subnormal extended double-precision floating-point value
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| represented by the denormalized significand `aSig'. The normalized exponent
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@ -2533,30 +2478,14 @@ static inline flag extractFloatx80Sign( floatx80 a )
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| `zSigPtr', respectively.
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*----------------------------------------------------------------------------*/
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static void
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normalizeFloatx80Subnormal( uint64_t aSig, int32_t *zExpPtr, uint64_t *zSigPtr )
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void normalizeFloatx80Subnormal(uint64_t aSig, int32_t *zExpPtr,
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uint64_t *zSigPtr)
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{
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int8_t shiftCount;
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shiftCount = countLeadingZeros64( aSig );
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*zSigPtr = aSig<<shiftCount;
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*zExpPtr = 1 - shiftCount;
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}
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/*----------------------------------------------------------------------------
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| Packs the sign `zSign', exponent `zExp', and significand `zSig' into an
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| extended double-precision floating-point value, returning the result.
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*----------------------------------------------------------------------------*/
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static inline floatx80 packFloatx80( flag zSign, int32_t zExp, uint64_t zSig )
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{
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floatx80 z;
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z.low = zSig;
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z.high = ( ( (uint16_t) zSign )<<15 ) + zExp;
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return z;
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}
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/*----------------------------------------------------------------------------
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@ -2583,7 +2512,7 @@ static inline floatx80 packFloatx80( flag zSign, int32_t zExp, uint64_t zSig )
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| Floating-Point Arithmetic.
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*----------------------------------------------------------------------------*/
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static floatx80 roundAndPackFloatx80(int8_t roundingPrecision, flag zSign,
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floatx80 roundAndPackFloatx80(int8_t roundingPrecision, flag zSign,
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int32_t zExp, uint64_t zSig0, uint64_t zSig1,
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float_status *status)
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{
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@ -2779,7 +2708,7 @@ static floatx80 roundAndPackFloatx80(int8_t roundingPrecision, flag zSign,
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| normalized.
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*----------------------------------------------------------------------------*/
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static floatx80 normalizeRoundAndPackFloatx80(int8_t roundingPrecision,
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floatx80 normalizeRoundAndPackFloatx80(int8_t roundingPrecision,
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flag zSign, int32_t zExp,
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uint64_t zSig0, uint64_t zSig1,
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float_status *status)
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@ -603,7 +603,7 @@ static inline void
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| unsigned integer is returned.
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*----------------------------------------------------------------------------*/
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static uint64_t estimateDiv128To64( uint64_t a0, uint64_t a1, uint64_t b )
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static inline uint64_t estimateDiv128To64(uint64_t a0, uint64_t a1, uint64_t b)
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{
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uint64_t b0, b1;
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uint64_t rem0, rem1, term0, term1;
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@ -630,7 +630,7 @@ static uint64_t estimateDiv128To64( uint64_t a0, uint64_t a1, uint64_t b )
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*
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* Licensed under the GPLv2/LGPLv3
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*/
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static uint64_t div128To64(uint64_t n0, uint64_t n1, uint64_t d)
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static inline uint64_t div128To64(uint64_t n0, uint64_t n1, uint64_t d)
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{
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uint64_t d0, d1, q0, q1, r1, r0, m;
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@ -683,7 +683,7 @@ static uint64_t div128To64(uint64_t n0, uint64_t n1, uint64_t d)
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| value.
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*----------------------------------------------------------------------------*/
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static uint32_t estimateSqrt32(int aExp, uint32_t a)
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static inline uint32_t estimateSqrt32(int aExp, uint32_t a)
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{
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static const uint16_t sqrtOddAdjustments[] = {
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0x0004, 0x0022, 0x005D, 0x00B1, 0x011D, 0x019F, 0x0236, 0x02E0,
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@ -717,7 +717,7 @@ static uint32_t estimateSqrt32(int aExp, uint32_t a)
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| `a'. If `a' is zero, 32 is returned.
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*----------------------------------------------------------------------------*/
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static int8_t countLeadingZeros32( uint32_t a )
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static inline int8_t countLeadingZeros32(uint32_t a)
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{
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#if SOFTFLOAT_GNUC_PREREQ(3, 4)
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if (a) {
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@ -765,7 +765,7 @@ static int8_t countLeadingZeros32( uint32_t a )
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| `a'. If `a' is zero, 64 is returned.
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*----------------------------------------------------------------------------*/
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static int8_t countLeadingZeros64( uint64_t a )
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static inline int8_t countLeadingZeros64(uint64_t a)
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{
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#if SOFTFLOAT_GNUC_PREREQ(3, 4)
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if (a) {
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@ -425,6 +425,23 @@ static inline float32 float32_set_sign(float32 a, int sign)
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#define float32_three make_float32(0x40400000)
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#define float32_infinity make_float32(0x7f800000)
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/*----------------------------------------------------------------------------
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| Packs the sign `zSign', exponent `zExp', and significand `zSig' into a
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| single-precision floating-point value, returning the result. After being
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| shifted into the proper positions, the three fields are simply added
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| together to form the result. This means that any integer portion of `zSig'
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| will be added into the exponent. Since a properly normalized significand
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| will have an integer portion equal to 1, the `zExp' input should be 1 less
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| than the desired result exponent whenever `zSig' is a complete, normalized
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| significand.
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*----------------------------------------------------------------------------*/
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static inline float32 packFloat32(flag zSign, int zExp, uint32_t zSig)
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{
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return make_float32(
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(((uint32_t)zSign) << 31) + (((uint32_t)zExp) << 23) + zSig);
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}
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/*----------------------------------------------------------------------------
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| The pattern for a default generated single-precision NaN.
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*----------------------------------------------------------------------------*/
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@ -640,6 +657,110 @@ static inline bool floatx80_invalid_encoding(floatx80 a)
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#define floatx80_half make_floatx80(0x3ffe, 0x8000000000000000LL)
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#define floatx80_infinity make_floatx80(0x7fff, 0x8000000000000000LL)
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/*----------------------------------------------------------------------------
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| Returns the fraction bits of the extended double-precision floating-point
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| value `a'.
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*----------------------------------------------------------------------------*/
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static inline uint64_t extractFloatx80Frac(floatx80 a)
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{
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return a.low;
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}
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/*----------------------------------------------------------------------------
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| Returns the exponent bits of the extended double-precision floating-point
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| value `a'.
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*----------------------------------------------------------------------------*/
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static inline int32_t extractFloatx80Exp(floatx80 a)
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{
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return a.high & 0x7FFF;
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}
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/*----------------------------------------------------------------------------
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| Returns the sign bit of the extended double-precision floating-point value
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| `a'.
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*----------------------------------------------------------------------------*/
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static inline flag extractFloatx80Sign(floatx80 a)
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{
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return a.high >> 15;
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}
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/*----------------------------------------------------------------------------
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| Packs the sign `zSign', exponent `zExp', and significand `zSig' into an
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| extended double-precision floating-point value, returning the result.
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*----------------------------------------------------------------------------*/
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static inline floatx80 packFloatx80(flag zSign, int32_t zExp, uint64_t zSig)
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{
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floatx80 z;
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z.low = zSig;
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z.high = (((uint16_t)zSign) << 15) + zExp;
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return z;
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}
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/*----------------------------------------------------------------------------
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| Normalizes the subnormal extended double-precision floating-point value
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| represented by the denormalized significand `aSig'. The normalized exponent
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| and significand are stored at the locations pointed to by `zExpPtr' and
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| `zSigPtr', respectively.
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*----------------------------------------------------------------------------*/
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void normalizeFloatx80Subnormal(uint64_t aSig, int32_t *zExpPtr,
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uint64_t *zSigPtr);
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/*----------------------------------------------------------------------------
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| Takes two extended double-precision floating-point values `a' and `b', one
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| of which is a NaN, and returns the appropriate NaN result. If either `a' or
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| `b' is a signaling NaN, the invalid exception is raised.
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*----------------------------------------------------------------------------*/
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floatx80 propagateFloatx80NaN(floatx80 a, floatx80 b, float_status *status);
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/*----------------------------------------------------------------------------
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| Takes an abstract floating-point value having sign `zSign', exponent `zExp',
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| and extended significand formed by the concatenation of `zSig0' and `zSig1',
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| and returns the proper extended double-precision floating-point value
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| corresponding to the abstract input. Ordinarily, the abstract value is
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| rounded and packed into the extended double-precision format, with the
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| inexact exception raised if the abstract input cannot be represented
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| exactly. However, if the abstract value is too large, the overflow and
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| inexact exceptions are raised and an infinity or maximal finite value is
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| returned. If the abstract value is too small, the input value is rounded to
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| a subnormal number, and the underflow and inexact exceptions are raised if
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| the abstract input cannot be represented exactly as a subnormal extended
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| double-precision floating-point number.
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| If `roundingPrecision' is 32 or 64, the result is rounded to the same
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| number of bits as single or double precision, respectively. Otherwise, the
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| result is rounded to the full precision of the extended double-precision
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| format.
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| The input significand must be normalized or smaller. If the input
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| significand is not normalized, `zExp' must be 0; in that case, the result
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| returned is a subnormal number, and it must not require rounding. The
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| handling of underflow and overflow follows the IEC/IEEE Standard for Binary
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| Floating-Point Arithmetic.
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*----------------------------------------------------------------------------*/
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floatx80 roundAndPackFloatx80(int8_t roundingPrecision, flag zSign,
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int32_t zExp, uint64_t zSig0, uint64_t zSig1,
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float_status *status);
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/*----------------------------------------------------------------------------
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| Takes an abstract floating-point value having sign `zSign', exponent
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| `zExp', and significand formed by the concatenation of `zSig0' and `zSig1',
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| and returns the proper extended double-precision floating-point value
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| corresponding to the abstract input. This routine is just like
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| `roundAndPackFloatx80' except that the input significand does not have to be
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| normalized.
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*----------------------------------------------------------------------------*/
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floatx80 normalizeRoundAndPackFloatx80(int8_t roundingPrecision,
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flag zSign, int32_t zExp,
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uint64_t zSig0, uint64_t zSig1,
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float_status *status);
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/*----------------------------------------------------------------------------
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| The pattern for a default generated extended double-precision NaN.
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*----------------------------------------------------------------------------*/
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