This with the following source implemented functions below:
double nextAfter(double x, double y) - returns the double adjacent to x in the direction of y
double scalb(double x, int e) - computes x*2e quickly
boolean unordered(double c1, double c2) - returns true iff the two cannot be compared numerically (one or both is NaN)
int fpclassify(double value) - classifies a floating-point value into one of five types:
FP_NAN: "not any number", typically the result of illegal operations like 0/0
FP_INFINITY: represents one end of the real line, available by 1/0 or POSITIVE_INFINITY
FP_ZERO: positive or negative zero; they are different, but not so much that it comes up much
FP_SUBNORMAL: a class of numbers very near zero; further explanation would require a detailed examination of the floating-point binary representation
FP_NORMAL: most values you encounter are "normal"
double copySign(double value, double sign) - returns value, possibly with its sign flipped, to match "sign"
double logb754(double value) - extracts the exponent of the value, to compute log2
double logb854(double value) - like logb754(value), but with an IEEE854-compliant variant for subnormal numbers
double logbn(double value) - also computing log2(value), but with a normalizing correction for the subnormals; this is the best log routine
double raise(double x) - not actually an IEEE754 routine, this is an optimized version of nextAfter(x,POSITIVE_INFINITY)
double lower(double x) - not actually an IEEE754 routine, this is an optimized version of nextAfter(x,NEGATIVE_INFINITY)
"All of these routines also have float variants, differing only in argument and return types. The class is org.dosereality.util.IEEE754"
Sun bug reference 2003