コード例 #1
0
ファイル: tcuFloatFormat.cpp プロジェクト: crucible/deqp
std::string FloatFormat::intervalToHex (const Interval& interval) const
{
	if (interval.empty())
		return interval.hasNaN() ? "{ NaN }" : "{}";

	else if (interval.lo() == interval.hi())
		return (std::string(interval.hasNaN() ? "{ NaN, " : "{ ") +
				floatToHex(interval.lo()) + " }");
	else if (interval == Interval::unbounded(true))
		return "<any>";

	return (std::string(interval.hasNaN() ? "{ NaN } | " : "") +
			"[" + floatToHex(interval.lo()) + ", " + floatToHex(interval.hi()) + "]");
}
コード例 #2
0
ファイル: tcuFloatFormat.cpp プロジェクト: crucible/deqp
//! Return the range of numbers that might be used with this format to
//! represent a number within `x`.
Interval FloatFormat::convert (const Interval& x) const
{
	Interval ret;
	Interval tmp = x;

	if (x.hasNaN())
	{
		// If NaN might be supported, NaN is a legal return value
		if (m_hasNaN != NO)
			ret |= TCU_NAN;

		// If NaN might not be supported, any (non-NaN) value is legal,
		// _subject_ to clamping. Hence we modify tmp, not ret.
		if (m_hasNaN != YES)
			tmp = Interval::unbounded();
	}

	// Round both bounds _inwards_ to closest representable values.
	if (!tmp.empty())
		ret |= clampValue(round(tmp.lo(), true)) | clampValue(round(tmp.hi(), false));

	// If this format's precision is not exact, the (possibly out-of-bounds)
	// original value is also a possible result.
	if (!m_exactPrecision)
		ret |= x;

	return ret;
}
コード例 #3
0
ファイル: tcuFloatFormat.cpp プロジェクト: crucible/deqp
//! Round output of an operation.
//! \param roundUnderOverflow Can +/-inf rounded to min/max representable;
//!							  should be false if any of operands was inf, true otherwise.
Interval FloatFormat::roundOut (const Interval& x, bool roundUnderOverflow) const
{
	Interval ret = x.nan();

	if (!x.empty())
		ret |= Interval(roundOut(x.lo(), false, roundUnderOverflow),
						roundOut(x.hi(), true, roundUnderOverflow));

	return ret;
}