/* * 64-bit IEEE not-a-number routines. * This is big/little-endian portable assuming that * the 64-bit doubles and 64-bit integers have the * same byte ordering. */ #include "plan9.h" #include "fmt.h" #include "fmtdef.h" static uvlong uvnan = ((uvlong)0x7FF00000<<32)|0x00000001; static uvlong uvinf = ((uvlong)0x7FF00000<<32)|0x00000000; static uvlong uvneginf = ((uvlong)0xFFF00000<<32)|0x00000000; double __NaN(void) { uvlong *p; /* gcc complains about "return *(double*)&uvnan;" */ p = &uvnan; return *(double*)p; } int __isNaN(double d) { uvlong x; double *p; p = &d; x = *(uvlong*)p; /* IEEE 754: exponent bits 0x7FF and non-zero mantissa */ return (x&uvinf) == uvinf && (x&~uvneginf) != 0; } double __Inf(int sign) { uvlong *p; if(sign < 0) p = &uvinf; else p = &uvneginf; return *(double*)p; } int __isInf(double d, int sign) { uvlong x; double *p; p = &d; x = *(uvlong*)p; if(sign == 0) return x==uvinf || x==uvneginf; else if(sign > 0) return x==uvinf; else return x==uvneginf; }