public static <U extends Number & Comparable<U>> FloatingPointInterval<U> unconstrained(final FloatingPointType<U> type) { return new FloatingPointInterval<>(type, type.getNegativeInfinity(), type.getPositiveInfinity()); }
public static <U extends Number & Comparable<U>> FloatingPointInterval<U> unconstrained(final FloatingPointType<U> type) { return new FloatingPointInterval<>(type, type.getNegativeInfinity(), type.getPositiveInfinity()); }
if (f.equals(_type.getNegativeInfinity())) before = null; else
if (f.equals(_type.getNegativeInfinity())) before = null; else
lower = _type.getNegativeInfinity(); if (n.equals(_type.getNegativeInfinity())) return _empty; else if (XSD.MAX_INCLUSIVE.equals(f)) lower = _type.getNegativeInfinity(); upper = n;
lower = _type.getNegativeInfinity(); if (n.equals(_type.getNegativeInfinity())) return _empty; else if (XSD.MAX_INCLUSIVE.equals(f)) lower = _type.getNegativeInfinity(); upper = n;