Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

F# has a units of measure capability (there's more detail in this research paper).

[<Measure>] type unit-name [ = measure ]

This allows units to be defined such as:

type [<Measure>] USD
type [<Measure>] EUR

And code to be written as:

let dollars = 25.0<USD>
let euros = 25.0<EUR>

// Results in an error as the units differ
if dollars > euros then printfn "Greater!"

It also handles conversions (I'm guessing that means Measure has some functions defined that let Measures be multiplied, divided and exponentiated):

// Mass, grams.
[<Measure>] type g
// Mass, kilograms.
[<Measure>] type kg

let gramsPerKilogram : float<g kg^-1> = 1000.0<g/kg>

let convertGramsToKilograms (x : float<g>) = x / gramsPerKilogram

Could this capability be implemented in OCaml? Someone suggested I look at phantom types but they don't appear to compose in the same way as units.

(Disclosure: I asked this question about Haskell a few months ago, got an interesting discussion but no definitive answer beyond 'probably not').

share|improve this question
2  
my suggestion to you would have been phantom types as well, but you are correct that they do not 'compose' as you desire. The first situation you mention (the error in comparison) and the last (the conversion functions) could be handled by phantom types though. –  nlucaroni Feb 3 at 22:26
1  
it really would make sense to have that in every language doing anything remotely physically interpretable....! –  nicolas Feb 4 at 13:25
1  
This may be possible as a plugin at the typechecker level. There has been some talk about allowing plugins for the typechecker. I don't know what the current state of the compiler is in this case. –  hcarty Feb 4 at 14:10
    
seems like a good idea to have compile time units of measure support to OCaml, as an aside I've created an F# runtime units of measure library which you could easily port & potentially use for a little inspiration: trelford.com/blog/post/Runtime-Units-of-Measure-for-F.aspx –  Phillip Trelford Feb 4 at 15:02
6  
you can write composition functions for the types (for example having type ('a,'b) per and type 'a measure = { v : float }; and let (</>) (a : 'a measure) (b : 'b measure) : (('a,'b) per) measure = {a.v /. b.v} But you'll have issues with multiplication and associativity, that I assume F# takes care of. –  nlucaroni Feb 4 at 15:13

1 Answer 1

up vote 1 down vote accepted

Quick answer: No, that's beyond the capabilities of current OCaml type inference.

To explain it a bit more: type inference in most functional languages is based on a concept called unification, which is really just a specific way of solving equations. For example, inferring the type of an expression like

let f l i j =
  (i, j) = List.nth l (i + j)

involves first creating a set of equations (where the types of l, i and j are 'a, 'b and 'c respectively, and List.nth : 'd list -> int -> 'd, (=) : 'e -> 'e -> bool, (+) : int -> int -> int):

'e ~ 'b * 'c
'a ~ 'd list
'b ~ int
'c ~ int
'd ~ 'e

and then solving these equations, which yields 'a ~ (int * int) list and f : (int * int) list -> int -> int -> bool. As you can see, these equations are not very hard to solve; in fact, the only theory underlying unification is syntactic equality, i.e. if two things are equal if and only if they are written in the same way (with special consideration for unbound variables).

The problem with units of measures is that the equations that are generated cannot be solved in a unique way using syntactic equality; the correct theory to use is the theory of Abelian groups (inverses, identity element, commutative operation). For example, the units of measure m * s * s⁻¹ should be equivalent to m. There is a further complication when it comes to principal types and let-generalization. For example, the following doesn't type-check in F#:

fun x -> let y z = x / z in (y mass, y time)

because y is inferred to have type float<'_a> -> float<'b * '_a⁻¹>, instead of the more general type float<'a> -> float<'b * 'a⁻¹>

Anyhow, for more information, I recommend reading the chapter 3 of the following PhD thesis:

https://personal.cis.strath.ac.uk/adam.gundry/thesis/thesis-2013-12-03.pdf

share|improve this answer
1  
Good answer. Note that with a little nudge, F# will generalize measures at lets; adding the annotation :float<_> to either x or z's binding will result in y having the type you expect. –  kvb Aug 20 at 15:39

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.