explicit APFloat(double d);
explicit APFloat(float f);
APFloat(const APFloat &);
+ APFloat(APFloat &&);
~APFloat();
/// @}
/// @}
APFloat &operator=(const APFloat &);
+ APFloat &operator=(APFloat &&);
/// \brief Overload to compute a hash code for an APFloat value.
///
return *this;
}
+APFloat &
+APFloat::operator=(APFloat &&rhs) {
+ freeSignificand();
+
+ semantics = rhs.semantics;
+ significand = rhs.significand;
+ exponent = rhs.exponent;
+ category = rhs.category;
+ sign = rhs.sign;
+
+ rhs.semantics = &Bogus;
+ return *this;
+}
+
bool
APFloat::isDenormal() const {
return isFiniteNonZero() && (exponent == semantics->minExponent) &&
assign(rhs);
}
+APFloat::APFloat(APFloat &&rhs) : semantics(&Bogus) {
+ *this = std::move(rhs);
+}
+
APFloat::~APFloat()
{
freeSignificand();