/* When bits of a floating point number are truncated, this enum is
used to indicate what fraction of the LSB those bits represented.
It essentially combines the roles of guard and sticky bits. */
- enum lostFraction { // Example of truncated bits:
- lfExactlyZero, // 000000
- lfLessThanHalf, // 0xxxxx x's not all zero
- lfExactlyHalf, // 100000
- lfMoreThanHalf // 1xxxxx x's not all zero
+ enum lostFraction { // Example of truncated bits:
+ lfExactlyZero, // 000000
+ lfLessThanHalf, // 0xxxxx x's not all zero
+ lfExactlyHalf, // 100000
+ lfMoreThanHalf // 1xxxxx x's not all zero
};
class APFloat {
APFloat(const APFloat &);
~APFloat();
+ /// Profile - Used to insert APFloat objects, or objects that contain
+ /// APFloat objects, into FoldingSets.
+ void Profile(FoldingSetNodeID& NID) const;
+
/// @brief Used by the Bitcode serializer to emit APInts to Bitcode.
void Emit(Serializer& S) const;
/* Conversions. */
opStatus convert(const fltSemantics &, roundingMode);
opStatus convertToInteger(integerPart *, unsigned int, bool,
- roundingMode) const;
+ roundingMode) const;
+ opStatus convertFromAPInt(const APInt &,
+ bool, roundingMode);
opStatus convertFromSignExtendedInteger(const integerPart *, unsigned int,
bool, roundingMode);
opStatus convertFromZeroExtendedInteger(const integerPart *, unsigned int,
bool isZero() const { return category == fcZero; }
bool isNonZero() const { return category != fcZero; }
bool isNaN() const { return category == fcNaN; }
+ bool isInfinity() const { return category == fcInfinity; }
bool isNegative() const { return sign; }
bool isPosZero() const { return isZero() && !isNegative(); }
bool isNegZero() const { return isZero() && isNegative(); }