6003be2b93
original vendor, but we're using their heavily modified version.) This brings in functions for long double emulation (both extended and quad formats), which may be useful for testing, and also for replacing libc/sparc64/fpu/.
522 lines
16 KiB
Plaintext
522 lines
16 KiB
Plaintext
/* $NetBSD: softfloat-specialize,v 1.6 2011/03/06 10:27:37 martin Exp $ */
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/* $FreeBSD$ */
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/* This is a derivative work. */
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/*
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===============================================================================
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This C source fragment is part of the SoftFloat IEC/IEEE Floating-point
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Arithmetic Package, Release 2a.
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Written by John R. Hauser. This work was made possible in part by the
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International Computer Science Institute, located at Suite 600, 1947 Center
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Street, Berkeley, California 94704. Funding was partially provided by the
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National Science Foundation under grant MIP-9311980. The original version
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of this code was written as part of a project to build a fixed-point vector
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processor in collaboration with the University of California at Berkeley,
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overseen by Profs. Nelson Morgan and John Wawrzynek. More information
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is available through the Web page `http://HTTP.CS.Berkeley.EDU/~jhauser/
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arithmetic/SoftFloat.html'.
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THIS SOFTWARE IS DISTRIBUTED AS IS, FOR FREE. Although reasonable effort
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has been made to avoid it, THIS SOFTWARE MAY CONTAIN FAULTS THAT WILL AT
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TIMES RESULT IN INCORRECT BEHAVIOR. USE OF THIS SOFTWARE IS RESTRICTED TO
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PERSONS AND ORGANIZATIONS WHO CAN AND WILL TAKE FULL RESPONSIBILITY FOR ANY
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AND ALL LOSSES, COSTS, OR OTHER PROBLEMS ARISING FROM ITS USE.
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Derivative works are acceptable, even for commercial purposes, so long as
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(1) they include prominent notice that the work is derivative, and (2) they
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include prominent notice akin to these four paragraphs for those parts of
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this code that are retained.
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===============================================================================
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*/
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#include <signal.h>
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#include <string.h>
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#include <unistd.h>
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/*
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-------------------------------------------------------------------------------
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Underflow tininess-detection mode, statically initialized to default value.
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(The declaration in `softfloat.h' must match the `int8' type here.)
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-------------------------------------------------------------------------------
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*/
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#ifdef SOFTFLOAT_FOR_GCC
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static
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#endif
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#ifdef __sparc64__
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int8 float_detect_tininess = float_tininess_before_rounding;
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#else
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int8 float_detect_tininess = float_tininess_after_rounding;
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#endif
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/*
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-------------------------------------------------------------------------------
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Raises the exceptions specified by `flags'. Floating-point traps can be
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defined here if desired. It is currently not possible for such a trap to
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substitute a result value. If traps are not implemented, this routine
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should be simply `float_exception_flags |= flags;'.
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-------------------------------------------------------------------------------
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*/
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#ifdef SOFTFLOAT_FOR_GCC
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#define float_exception_mask __softfloat_float_exception_mask
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#endif
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int float_exception_mask = 0;
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void float_raise( int flags )
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{
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float_exception_flags |= flags;
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if ( flags & float_exception_mask ) {
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#if 0
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siginfo_t info;
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memset(&info, 0, sizeof info);
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info.si_signo = SIGFPE;
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info.si_pid = getpid();
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info.si_uid = geteuid();
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if (flags & float_flag_underflow)
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info.si_code = FPE_FLTUND;
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else if (flags & float_flag_overflow)
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info.si_code = FPE_FLTOVF;
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else if (flags & float_flag_divbyzero)
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info.si_code = FPE_FLTDIV;
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else if (flags & float_flag_invalid)
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info.si_code = FPE_FLTINV;
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else if (flags & float_flag_inexact)
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info.si_code = FPE_FLTRES;
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sigqueueinfo(getpid(), &info);
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#else
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raise( SIGFPE );
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#endif
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}
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}
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#undef float_exception_mask
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/*
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-------------------------------------------------------------------------------
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Internal canonical NaN format.
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-------------------------------------------------------------------------------
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*/
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typedef struct {
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flag sign;
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bits64 high, low;
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} commonNaNT;
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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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*/
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#define float32_default_nan 0xFFFFFFFF
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/*
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-------------------------------------------------------------------------------
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Returns 1 if the single-precision floating-point value `a' is a NaN;
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otherwise returns 0.
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-------------------------------------------------------------------------------
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*/
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#ifdef SOFTFLOAT_FOR_GCC
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static
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#endif
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flag float32_is_nan( float32 a )
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{
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return ( 0xFF000000 < (bits32) ( a<<1 ) );
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}
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/*
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-------------------------------------------------------------------------------
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Returns 1 if the single-precision floating-point value `a' is a signaling
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NaN; otherwise returns 0.
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-------------------------------------------------------------------------------
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*/
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#if defined(SOFTFLOAT_FOR_GCC) && !defined(SOFTFLOATSPARC64_FOR_GCC) && \
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!defined(SOFTFLOAT_M68K_FOR_GCC)
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static
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#endif
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flag float32_is_signaling_nan( float32 a )
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{
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return ( ( ( a>>22 ) & 0x1FF ) == 0x1FE ) && ( a & 0x003FFFFF );
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}
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/*
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-------------------------------------------------------------------------------
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Returns the result of converting the single-precision floating-point NaN
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`a' to the canonical NaN format. If `a' is a signaling NaN, the invalid
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exception is raised.
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-------------------------------------------------------------------------------
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*/
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static commonNaNT float32ToCommonNaN( float32 a )
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{
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commonNaNT z;
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if ( float32_is_signaling_nan( a ) ) float_raise( float_flag_invalid );
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z.sign = a>>31;
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z.low = 0;
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z.high = ( (bits64) a )<<41;
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return z;
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}
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/*
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-------------------------------------------------------------------------------
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Returns the result of converting the canonical NaN `a' to the single-
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precision floating-point format.
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-------------------------------------------------------------------------------
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*/
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static float32 commonNaNToFloat32( commonNaNT a )
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{
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return ( ( (bits32) a.sign )<<31 ) | 0x7FC00000 | ( a.high>>41 );
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}
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/*
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-------------------------------------------------------------------------------
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Takes two single-precision floating-point values `a' and `b', one of which
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is a NaN, and returns the appropriate NaN result. If either `a' or `b' is a
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signaling NaN, the invalid exception is raised.
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-------------------------------------------------------------------------------
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*/
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static float32 propagateFloat32NaN( float32 a, float32 b )
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{
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flag aIsNaN, aIsSignalingNaN, bIsNaN, bIsSignalingNaN;
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aIsNaN = float32_is_nan( a );
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aIsSignalingNaN = float32_is_signaling_nan( a );
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bIsNaN = float32_is_nan( b );
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bIsSignalingNaN = float32_is_signaling_nan( b );
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a |= 0x00400000;
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b |= 0x00400000;
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if ( aIsSignalingNaN | bIsSignalingNaN ) float_raise( float_flag_invalid );
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if ( aIsNaN ) {
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return ( aIsSignalingNaN & bIsNaN ) ? b : a;
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}
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else {
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return b;
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}
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}
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/*
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-------------------------------------------------------------------------------
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The pattern for a default generated double-precision NaN.
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-------------------------------------------------------------------------------
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*/
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#define float64_default_nan LIT64( 0xFFFFFFFFFFFFFFFF )
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/*
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-------------------------------------------------------------------------------
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Returns 1 if the double-precision floating-point value `a' is a NaN;
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otherwise returns 0.
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-------------------------------------------------------------------------------
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*/
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#ifdef SOFTFLOAT_FOR_GCC
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static
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#endif
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flag float64_is_nan( float64 a )
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{
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return ( LIT64( 0xFFE0000000000000 ) <
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(bits64) ( FLOAT64_DEMANGLE(a)<<1 ) );
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}
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/*
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-------------------------------------------------------------------------------
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Returns 1 if the double-precision floating-point value `a' is a signaling
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NaN; otherwise returns 0.
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-------------------------------------------------------------------------------
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*/
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#if defined(SOFTFLOAT_FOR_GCC) && !defined(SOFTFLOATSPARC64_FOR_GCC) && \
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!defined(SOFTFLOATM68K_FOR_GCC)
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static
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#endif
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flag float64_is_signaling_nan( float64 a )
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{
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return
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( ( ( FLOAT64_DEMANGLE(a)>>51 ) & 0xFFF ) == 0xFFE )
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&& ( FLOAT64_DEMANGLE(a) & LIT64( 0x0007FFFFFFFFFFFF ) );
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}
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/*
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-------------------------------------------------------------------------------
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Returns the result of converting the double-precision floating-point NaN
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`a' to the canonical NaN format. If `a' is a signaling NaN, the invalid
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exception is raised.
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-------------------------------------------------------------------------------
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*/
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static commonNaNT float64ToCommonNaN( float64 a )
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{
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commonNaNT z;
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if ( float64_is_signaling_nan( a ) ) float_raise( float_flag_invalid );
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z.sign = FLOAT64_DEMANGLE(a)>>63;
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z.low = 0;
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z.high = FLOAT64_DEMANGLE(a)<<12;
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return z;
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}
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/*
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-------------------------------------------------------------------------------
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Returns the result of converting the canonical NaN `a' to the double-
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precision floating-point format.
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-------------------------------------------------------------------------------
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*/
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static float64 commonNaNToFloat64( commonNaNT a )
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{
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return FLOAT64_MANGLE(
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( ( (bits64) a.sign )<<63 )
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| LIT64( 0x7FF8000000000000 )
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| ( a.high>>12 ) );
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}
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/*
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-------------------------------------------------------------------------------
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Takes two double-precision floating-point values `a' and `b', one of which
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is a NaN, and returns the appropriate NaN result. If either `a' or `b' is a
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signaling NaN, the invalid exception is raised.
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-------------------------------------------------------------------------------
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*/
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static float64 propagateFloat64NaN( float64 a, float64 b )
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{
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flag aIsNaN, aIsSignalingNaN, bIsNaN, bIsSignalingNaN;
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aIsNaN = float64_is_nan( a );
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aIsSignalingNaN = float64_is_signaling_nan( a );
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bIsNaN = float64_is_nan( b );
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bIsSignalingNaN = float64_is_signaling_nan( b );
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a |= FLOAT64_MANGLE(LIT64( 0x0008000000000000 ));
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b |= FLOAT64_MANGLE(LIT64( 0x0008000000000000 ));
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if ( aIsSignalingNaN | bIsSignalingNaN ) float_raise( float_flag_invalid );
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if ( aIsNaN ) {
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return ( aIsSignalingNaN & bIsNaN ) ? b : a;
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}
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else {
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return b;
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}
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}
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#ifdef FLOATX80
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/*
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-------------------------------------------------------------------------------
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The pattern for a default generated extended double-precision NaN. The
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`high' and `low' values hold the most- and least-significant bits,
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respectively.
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-------------------------------------------------------------------------------
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*/
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#define floatx80_default_nan_high 0xFFFF
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#define floatx80_default_nan_low LIT64( 0xFFFFFFFFFFFFFFFF )
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/*
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-------------------------------------------------------------------------------
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Returns 1 if the extended double-precision floating-point value `a' is a
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NaN; otherwise returns 0.
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-------------------------------------------------------------------------------
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*/
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flag floatx80_is_nan( floatx80 a )
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{
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return ( ( a.high & 0x7FFF ) == 0x7FFF ) && (bits64) ( a.low<<1 );
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}
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/*
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-------------------------------------------------------------------------------
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Returns 1 if the extended double-precision floating-point value `a' is a
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signaling NaN; otherwise returns 0.
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-------------------------------------------------------------------------------
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*/
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flag floatx80_is_signaling_nan( floatx80 a )
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{
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bits64 aLow;
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aLow = a.low & ~ LIT64( 0x4000000000000000 );
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return
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( ( a.high & 0x7FFF ) == 0x7FFF )
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&& (bits64) ( aLow<<1 )
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&& ( a.low == aLow );
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}
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/*
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-------------------------------------------------------------------------------
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Returns the result of converting the extended double-precision floating-
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point NaN `a' to the canonical NaN format. If `a' is a signaling NaN, the
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invalid exception is raised.
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-------------------------------------------------------------------------------
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*/
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static commonNaNT floatx80ToCommonNaN( floatx80 a )
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{
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commonNaNT z;
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if ( floatx80_is_signaling_nan( a ) ) float_raise( float_flag_invalid );
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z.sign = a.high>>15;
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z.low = 0;
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z.high = a.low<<1;
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return z;
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}
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/*
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-------------------------------------------------------------------------------
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Returns the result of converting the canonical NaN `a' to the extended
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double-precision floating-point format.
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-------------------------------------------------------------------------------
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*/
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static floatx80 commonNaNToFloatx80( commonNaNT a )
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{
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floatx80 z;
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z.low = LIT64( 0xC000000000000000 ) | ( a.high>>1 );
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z.high = ( ( (bits16) a.sign )<<15 ) | 0x7FFF;
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return z;
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}
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/*
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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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*/
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static floatx80 propagateFloatx80NaN( floatx80 a, floatx80 b )
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{
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flag aIsNaN, aIsSignalingNaN, bIsNaN, bIsSignalingNaN;
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aIsNaN = floatx80_is_nan( a );
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aIsSignalingNaN = floatx80_is_signaling_nan( a );
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bIsNaN = floatx80_is_nan( b );
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bIsSignalingNaN = floatx80_is_signaling_nan( b );
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a.low |= LIT64( 0xC000000000000000 );
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b.low |= LIT64( 0xC000000000000000 );
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if ( aIsSignalingNaN | bIsSignalingNaN ) float_raise( float_flag_invalid );
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if ( aIsNaN ) {
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return ( aIsSignalingNaN & bIsNaN ) ? b : a;
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}
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else {
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return b;
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}
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}
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#endif
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#ifdef FLOAT128
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/*
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-------------------------------------------------------------------------------
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The pattern for a default generated quadruple-precision NaN. The `high' and
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`low' values hold the most- and least-significant bits, respectively.
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-------------------------------------------------------------------------------
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*/
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#define float128_default_nan_high LIT64( 0xFFFFFFFFFFFFFFFF )
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#define float128_default_nan_low LIT64( 0xFFFFFFFFFFFFFFFF )
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/*
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-------------------------------------------------------------------------------
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Returns 1 if the quadruple-precision floating-point value `a' is a NaN;
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otherwise returns 0.
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-------------------------------------------------------------------------------
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*/
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flag float128_is_nan( float128 a )
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{
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return
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( LIT64( 0xFFFE000000000000 ) <= (bits64) ( a.high<<1 ) )
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&& ( a.low || ( a.high & LIT64( 0x0000FFFFFFFFFFFF ) ) );
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}
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/*
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-------------------------------------------------------------------------------
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Returns 1 if the quadruple-precision floating-point value `a' is a
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signaling NaN; otherwise returns 0.
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-------------------------------------------------------------------------------
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*/
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flag float128_is_signaling_nan( float128 a )
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{
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return
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( ( ( a.high>>47 ) & 0xFFFF ) == 0xFFFE )
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&& ( a.low || ( a.high & LIT64( 0x00007FFFFFFFFFFF ) ) );
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}
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/*
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-------------------------------------------------------------------------------
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Returns the result of converting the quadruple-precision floating-point NaN
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`a' to the canonical NaN format. If `a' is a signaling NaN, the invalid
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exception is raised.
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-------------------------------------------------------------------------------
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*/
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static commonNaNT float128ToCommonNaN( float128 a )
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{
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commonNaNT z;
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if ( float128_is_signaling_nan( a ) ) float_raise( float_flag_invalid );
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z.sign = a.high>>63;
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shortShift128Left( a.high, a.low, 16, &z.high, &z.low );
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return z;
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}
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/*
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-------------------------------------------------------------------------------
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Returns the result of converting the canonical NaN `a' to the quadruple-
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precision floating-point format.
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-------------------------------------------------------------------------------
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*/
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static float128 commonNaNToFloat128( commonNaNT a )
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{
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float128 z;
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shift128Right( a.high, a.low, 16, &z.high, &z.low );
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z.high |= ( ( (bits64) a.sign )<<63 ) | LIT64( 0x7FFF800000000000 );
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return z;
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}
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/*
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-------------------------------------------------------------------------------
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Takes two quadruple-precision floating-point values `a' and `b', one of
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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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*/
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static float128 propagateFloat128NaN( float128 a, float128 b )
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{
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flag aIsNaN, aIsSignalingNaN, bIsNaN, bIsSignalingNaN;
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aIsNaN = float128_is_nan( a );
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aIsSignalingNaN = float128_is_signaling_nan( a );
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bIsNaN = float128_is_nan( b );
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bIsSignalingNaN = float128_is_signaling_nan( b );
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a.high |= LIT64( 0x0000800000000000 );
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b.high |= LIT64( 0x0000800000000000 );
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if ( aIsSignalingNaN | bIsSignalingNaN ) float_raise( float_flag_invalid );
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if ( aIsNaN ) {
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return ( aIsSignalingNaN & bIsNaN ) ? b : a;
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}
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else {
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return b;
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}
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}
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#endif
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