Troubleshooting
Why do unit conversions yield rational numbers sometimes?
We use rational numbers in this package to permit exact conversions between different units where possible. As an example, one inch is exactly equal to 2.54 cm. However, in Julia, the floating-point 2.54
is not equal to 254//100
. As a consequence, 1inch != 2.54cm
, because Unitful respects exact conversions. To test for equivalence, instead use ≈
(\approx
tab-completion).
But I want a floating point number...
float(x)
is defined for Unitful.Quantity
types, and is forwarded to the underlying numeric type (units are not affected).
We may consider adding an option in the defaults to turn on/off use of Rational
numbers. They permit exact conversions, but they aren't preferred as a result type in much of Julia Base (consider that inv(2) === 0.5
, not 1//2
).
Exponentiation
Most operations with this package should in principle suffer little performance penalty if any at run time. An exception to this is rule is exponentiation. Since units and their powers are encoded in the type signature of a Unitful.Quantity
object, raising a Quantity
to some power, which is just some run-time value, necessarily results in different result types. This type instability could impact performance:
julia> square(x) = (p = 2; x^p) square (generic function with 1 method)
In Julia, constant literal integers are lowered specially for exponentiation. (See Julia PR #20530 for details.) In this case, type stability can be maintained:
julia> square(x) = x^2 square (generic function with 1 method)
Because the functions inv
, sqrt
, and cbrt
are raising a Quantity
to a fixed power (-1, 1/2, and 1/3, respectively), we can use a generated function to ensure type stability in these cases. Also note that squaring a Quantity
can be type-stable if done as x*x
.
Promotion with dimensionless numbers
Most of the time, you are only permitted to do sensible operations in Unitful. With dimensionless numbers, some of the safe logic breaks down. Consider for instance that μm/m
and rad
are both dimensionless units, but kind of have nothing to do with each other. It would be a little weird to add them. Nonetheless, we permit this to happen since they have the same dimensions. Otherwise, we would have to special-case operations for two dimensionless quantities rather than dispatching on the empty dimension.
The result of addition and subtraction with dimensionless but unitful numbers is always a pure number with no units. With angles, 1 rad
is essentially just 1
, giving sane behavior:
julia> π/2*u"rad"+90u"°" 3.141592653589793
Broken display of dimension characters in the REPL
On some terminals with some fonts, dimension characters such as 𝐌 are displayed as an empty box. Setting a wider font spacing in your terminal settings can solve this problem.
I have a different problem
Please raise an issue. This package is in development and there may be bugs. Feature requests may also be considered and pull requests are welcome.