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SymPy is a great tool for doing units conversions in Python:

>>> from sympy.physics import units
>>> 12. * units.inch / units.m

You can easily roll your own:

>>> units.BTU = 1055.05585 * units.J
>>> units.BTU

However, I cannot implement this into my application unless I can convert degrees C (absolute) to K to degrees F to degrees R, or any combo thereof.

I thought maybe something like this would work:

units.degC = <<somefunc of units.K>>

But clearly that is the wrong path to go down. Any suggestions for cleanly implementing "offset"-type units conversions in SymPy?

Note: I'm open to trying other units conversion modules, but don't know of any besides Unum, and found it to be cumbersome.

Edit: OK, it is now clear that what I want to do is first determine if the two quantities to be compared are in the same coordinate system. (like time units reference to different epochs or time zones or dB to straight amplitude), make the appropriate transformation, then make the conversion. Are there any general coordinate system management tools? That would be great.

I would make the assumption that °F and °C always refer to Δ°F Δ°C within an expression but refer to absolute when standing alone. I was just wondering if there was a way to make units.degF a function and slap a decorator property() on it to deal with those two conditions.

But for now, I'll set units.C == units.K and try to make it very clear in the documentation to use functions convertCtoK(...) and convertFtoR(...) when dealing with absolute units. (Just kidding. No I won't.)

share|improve this question
Too bad sympy.physics.units has no documentation. – Craig McQueen Jun 22 '10 at 6:01
GNU Units separates them into degF and tempF(x):… – endolith May 21 '14 at 21:22
up vote 4 down vote accepted

I personally like Quantities thanks to its NumPy integration, however it only does relative temperatures, not absolute.

share|improve this answer
I think you might have me sold on Quantities. Nice and lightwieght, numpy integration, and /uncertainties/ to boot. Thank you. ..still looking for a decent work-around for the "offset coordinate system problem". – Paul Jun 22 '09 at 1:59
Would you recommend it over units? – endolith May 21 '14 at 21:30

The Unum documentation has a pretty good writeup on why this is hard:

Unum is unable to handle reliably conversions between °Celsius and Kelvin. The issue is referred as the 'false origin problem' : the 0°Celsius is defined as 273.15 K. This is really a special and annoying case, since in general the value 0 is unaffected by unit conversion, e.g. 0 [m] = 0 [miles] = ... . Here, the conversion Kelvin/°Celsius is characterized by a factor 1 and an offset of 273.15 K. The offset is not feasible in the current version of Unum.

Moreover it will presumably never be integrated in a future version because there is also a conceptual problem : the offset should be applied if the quantity represents an absolute temperature, but it shouldn't if the quantity represents a difference of temperatures. For instance, a raise of temperature of 1° Celsius is equivalent to a raise of 1 K. It is impossible to guess what is in the user mind, whether it's an absolute or a relative temperature. The question of absolute vs relative quantities is unimportant for other units since the answer does not impact the conversion rule. Unum is unable to make the distinction between the two cases.

It's pretty easy to conceptually see the problems with trying to represent absolute temperature conversion symbolically. With any normal relative unit, (x unit) * 2 == (x * 2) unit—unit math is commutative. With absolute temperatures, that breaks down—it's difficult to do anything more complex than straight temperature conversions with no other unit dimensions. You're probably best off keeping all calculations in Kelvin, and converting to and from other temperature units only at the entry and exit points of your code.

share|improve this answer
There is a reason that there are both datetime and timedelta objects. What prevents to do the same for temperature? – J.F. Sebastian Jun 22 '09 at 1:18
You could do it, you just can't integrate the absolute temperature units into a symbolic math library where unit math is commutative. – Miles Jun 22 '09 at 1:52
You can integrate it just fine. See my answer… – J.F. Sebastian Jun 22 '09 at 2:14
To any future reader: please be VERY careful with Unum. Unum is unmaintained since ages, and it uses a function called as, which is a reserved keyword in python 2.6. Consider the Quantities module instead. – Stefano Borini Sep 14 '09 at 23:30
That's a pretty weak excuse. GNU Units can handle both degC (relative) and tempC (absolute). It can handle decibels, too, which involve a logarithm for conversion. – endolith Jul 15 '12 at 5:43

Example, how it could work:

>>> T(0*F) + 10*C
T(265.37222222222221*K) # or T(47767/180*K)
>>> T(0*F + 10*C)
>>> 0*F + T(10*C)
>>> 0*F + 10*C
>>> T(0*F) + T(10*C)
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: unsupported operand type(s) for +: 'absolute_temperature' and \
>>> T(0*F) - T(10*C)
T(245.37222222222223*K) # or T(44167/180*K)
>>> 0*F - 10*C
share|improve this answer
>>> T(0*F + 10*C) # ? – Miles Jun 22 '09 at 2:16
@Miles: Thanks for making your comment as cryptic as the answer! Something got left out of the copy/paste. T is a Tesla in physics.units. But I assume I'm to redefine it myself.. – Paul Jun 22 '09 at 2:35
@bpowah: T is absolute_temperature here. – J.F. Sebastian Jun 22 '09 at 3:24
@Miles: 0*F, 10*C - relative temperatures (not absolute) in Fahrenheit and Celsius degrees correspondingly. It is not physics.units, just similar syntax. – J.F. Sebastian Jun 22 '09 at 3:30
@J.F. Sebastian: I understand that. My comment is that T(0*F + 10*C) == T(283.15*K) doesn't make any sense, because that's saying T(10*K) == T(283.15*K). It's difficult to have 10*C == 10*K while having T(10*C) == T(283.15*K). – Miles Jun 22 '09 at 8:40

The natu package handles units of temperature. For instance, you can do this:

>>> from natu.units import K, degC, degF
>>> T = 25*degC
>>> T/K
>>> T/degF
>>> 0*degC + 100*K
100.0 degC

Prefixes are supported too:

>>> from natu.units import mdegC
>>> 100*mdegC/K

natu also handles nonlinear units such as the decibel, not just those with offsets like degree Celsius and degree Fahrenheit.

Relating to the first example you gave, you can do this:

>>> from natu import units
>>> 12*units.inch/units.m

BTU is already built in. You can change its display unit to m**2*kg/s**2, but by default natu simplifies the unit to J:

>>> from natu.units import BTU
>>> BTU.display = 'm2*kg/s2'
>>> 1*BTU
1055.05585262 J
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