/** * Bitwise AND together two Numbers. * * @param left a Number * @param right another Number to bitwise AND * @return the bitwise AND of both Numbers * @since 1.0 */ public static Number and(Number left, Number right) { return NumberMath.and(left, right); }
break; case BITWISE_AND: result = NumberMath.and(left, right); break; case BITWISE_OR:
/** * Bitwise AND together two Numbers. * * @param left a Number * @param right another Number to bitwise AND * @return the bitwise AND of both Numbers */ public static Number and(Number left, Number right) { return NumberMath.and(left, right); }
/** * Bitwise AND together two Numbers. * * @param left a Number * @param right another Number to bitwise AND * @return the bitwise AND of both Numbers * @since 1.0 */ public static Number and(Number left, Number right) { return NumberMath.and(left, right); }
/** * Bitwise AND together two Numbers. * * @param left a Number * @param right another Number to bitwise AND * @return the bitwise AND of both Numbers * @since 1.0 */ public static Number and(Number left, Number right) { return NumberMath.and(left, right); }
/** * Bitwise AND together two Numbers. * * @param left a Number * @param right another Number to bitwise AND * @return the bitwise AND of both Numbers * @since 1.0 */ public static Number and(Number left, Number right) { return NumberMath.and(left, right); }
public static Number and(final Number self, final Proxy.Node node) { return NumberMath.and(self, node.getTo().getNum0()); }
public Number and(final Number number) { return NumberMath.and(getTo().getNum0(), number); }
public Number and(final Node node) { return NumberMath.and(getTo().getNum0(), node.getTo().getNum0()); }