# Converting from m/s to km/h using F# Units of Measure

I'm in the process of learning F# - and is currently looking into Units of Measure. I have a simple calculation returning meters per second, and I want to introduce a function converting it to kilometres per hour.

My code looks like this:

``````[<Measure>] type kg
[<Measure>] type s
[<Measure>] type m
[<Measure>] type km
[<Measure>] type h

let msToKmph(speed : float<m/s>) =
(float speed) * 3.6<km/h>

let gravityOnEarth = 9.81<m/s^2>
let heightOfJump = 3.5<m>

let speedOfImpact = sqrt (2.0 * gravityOnEarth * heightOfJump)
let speedOfImpactKmh = msToKmph(speedOfImpact)
``````

This works - I get 8.28673639 m/s and 29.832251 km/h. What I am unsure of is if this is the best way to express the relationship between different units. Can this be done more elegantly?

For instance, the line doing (float speed) to remove the unit information from the speed parameter, to make the msToKmph return km/h. If I did not remove unit information before doing the calculation, the returned unit would be: km m/(h s)

-
You probably want to post this to the CodeReview stack exchange. codereview.stackexchange.com Other than that I think your approach is fine. – Onorio Catenacci Dec 11 '12 at 15:00
I've not used them myself, but I'd define conversion functions between units of the same "type" (such as length) using ratios expressed using appropriate units (e.g. `let mToKm(length: float<m>) = length * 0.001<km/m>`) and then build up other conversions based on these simple ones. – Damien_The_Unbeliever Dec 11 '12 at 15:01

First, your `msToKmph` is totally incorrect. Although it returns a correct return value, what it is actually doing, is it just drops the original `<m/s>` value by converting to a plain, measureless `float` and then multiplies the measureless value to a `3.6<km/h>`.

To better express the relations between UoM's, consider this:

``````let kmToM = 1000.0<m/km>  // relation between kilometers and meters
let hrToSec = 3600.0<s/h> // relation between seconds and hours
let msToKmph(speed : float<m/s>) =
speed / kmToM * hrToSec
``````

Note, all "magic numbers" are encapsulated within UoM converters, hence your formulas remain clean, e.g. they simply operate values and constants, but the UoM are calculated by the compiler.

Update: The philosophy of UoM conversion is that the conversion formulas should be something that has physical sense. The rule of thumb is whether your conversion value presents in reference books. In plain English, `3.6<km/h>` from above is useless, but `1000.0<m/km>` just says, "there is 1000 m in 1 km", which makes sense.

You can even improve `hrToSec` like this:

``````let hrToSec2 = 60.0<s/minute> * 60.0<minute/h>
``````

This will make every value a well-known value found in reference books.

-

You're right that removing unit information is a bad thing. You should create a few constants with appropriate units for conversion.

``````let mPerKm = 1000.0<m/km>
let secondPerHour = 3600.0<s/h>

// val msToKmph : float<m/s> -> float<km/h>
let msToKmph(speed : float<m/s>) =
speed / mPerKm * secondPerHour
``````

For `km` and `m`, a generic solution is to define a unit prefix `k` so it works for many UoMs which have kilo as a metric:

``````[<Measure>] type k

let kilo = 1000.0<1/k>
let secondPerHour = 3600.0<s/h>

// val msToKmph : float<m/s> -> float<k m/h>
let msToKmph(speed : float<m/s>) =
speed / kilo * secondPerHour
``````
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Never thought of kilo, neat idea. I'd have called `hourPerSecond` `secondPerHour` though. – Benjol Dec 12 '12 at 6:00
You're right, thanks. I updated the answer. – pad Dec 12 '12 at 6:05
`kilo` is a great idea, I was thinking about it a while ago. I was stuck at composite values like `km^2` that turn out to be `kilo^2 * m^2`. It is not a problem for typical SI UoM, but for practical calculations it may be a pain. How do you suggest mitigating this, in general? – bytebuster Dec 12 '12 at 9:24
@bytebuster: You're correct. It's the place where `km` looks better than `k m`. I don't know any way to bypass this. – pad Dec 12 '12 at 9:45