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@@ -44,7 +44,7 @@ double Range::_snapped_r128(double p_value, double p_step) {
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// R128 is fixed-precision with 64 bits after the decimal point, but double already uses 53 of those,
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// so a step size finer than 2^-11 will lose precision, and in practice even 1e-3 can be problematic.
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// By rescaling the value and step, we can shift precision into the higher bits (effectively turning R128 into a makeshift float).
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- const int decimals = 14 - Math::floor(std::log10(MAX(Math::abs(p_value), p_step)));
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+ const int decimals = MIN(18, 14 - Math::floor(std::log10(MAX(Math::abs(p_value), p_step))));
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const double scale = Math::pow(10.0, decimals);
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p_value *= scale;
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p_step *= scale;
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Thaddeus Crews