Type Driven Domain Modelling, part 3

One More Spec Change With F#

This is part 3 of a series:

In this third part of the series, we will add a feature to the basket read model: every line will be more explicit about whether or not it's being promoted, and what the discount is.

Spec

Lines in the basket will have one total value if there are no promotions applied. In cases where a promotion is applied, lines in the basket will list the original total value (before discount), the resulting discount, and the final total value after subtracting the discount from the original total.

Evolving The Types

To achieve the new spec, we don't need to change the Product or the Event. Or In CQRS terms, we don't need to change the Command side, only the Read side.

Let's first define a type ReadTotal , that expresses the totals we need to show the user according to the new spec:

type ReadTotal = | NotPromoted of Price | Promoted of original: Price * discount: Price * final: Price

There we have it: a NotPromoted total that only stores the price, or a Promoted total, that stores the price before, the discount, and the price after the promotion ( original , discount , and final ).

Now let's see it in our read models:

type Line = { productSku: Sku quantity: Qty lineTotal: ReadTotal } type Basket = { lines: Line list total: ReadTotal } let empty = { lines = [] ; total = NotPromoted 0 }

That's everything we need with our types, now let's go to the functions.

Adapting The Functions

First, I'm going to rename promotedTotal to promotedFinalTotal - that's more descriptive of what the function does now:

let promotedFinalTotal quantity price promotion = let promotedQty = quantity / promotion.promoQty let promotedTotal = promotedQty * promotion.promoPrice let notPromotedQty = quantity % promotion.promoQty let notPromotedTotal = notPromotedQty * price promotedTotal + notPromotedTotal

And then we reimplement promotedTotal . This function will calculate the promoted total, and the total without promotion. If the values are different, it returns a Promoted . If the values are not different, it returns a NotPromoted :

let promotedTotal quantity price promotion = let final = promotedFinalTotal quantity price promotion let original = quantity * price if final <> original then Promoted(original, original - final, final) else NotPromoted(final)

Easy! Now we adapt the lineTotal function to return ReadTotal :

let lineTotal quantity product = match product.promotion with | None -> NotPromoted(quantity * product.price) | Some promotion -> promotedTotal quantity product.price promotion

And we're done with all the line refactoring :) If we compile the project now, we see that we only have to adapt basketTotal to sum the totals of all the lines. Let's do it.

Summing ReadTotals

Let's have a look at the current basketTotal implementation:

let basketTotal lines = lines |> List.map ( fun l -> l.lineTotal) |> List.sum

List.sum is a simple function that sums all the ints from a list. Another way we could sum the ints could be:

let basketTotal lines = lines |> List.map ( fun l -> l.lineTotal) |> List.fold (+) 0

This works the same way, but exposes a more generic syntax that we can take advantage of. (+) is the function that sums two ints, and 0 is an "initial" int; that means that in order to adapt this function to ReadTotal instead of int we only need to implement a function that sums two ReadTotal and an initial total!

To sum two ReadTotal , we have to take into account that both could be either NotPromoted or Promoted . I'll implement it as four case pattern match, and if you have a better idea, please write it in the comments!

let sumTotals t1 t2 = match t1, t2 with | NotPromoted v1, NotPromoted v2 -> NotPromoted(v1 + v2) | NotPromoted v, Promoted(o, d, f) -> Promoted(v + o, d, v + f) | Promoted(o, d, f), NotPromoted v -> Promoted(v + o, d, v + f) | Promoted(o1, d1, f1), Promoted(o2, d2, f2) -> Promoted(o1 + o2, d1 + d2, f1 + f2) let basketTotal lines = lines |> List.map ( fun l -> l.lineTotal) |> List.fold sumTotals (NotPromoted 0 )

And our new domain is ready! Just run the Experiments.fsx script we wrote in Part 2, and see the results :)

Updating The Tests

For the "promoted line total" test, we need now to build both the Promoted and NotPromoted expected results:

testProperty "promoted line total" <| fun (N : Qty) -> let price = 10 let promotedPrice = 7 let promoQty = N + 2 us let promotion = { promoQty = promoQty ; promoPrice = promotedPrice } let promoted = promotedTotal promoQty price promotion let notPromoQty = N + 1 us let notPromoted = promotedTotal notPromoQty price promotion let promotedExpected = Promoted(promoQty * price, promoQty * price - promotedPrice , promotedPrice) let notPromotedExpected = NotPromoted(notPromoQty * price) Expect.equal promoted promotedExpected "same price as promotion" Expect.equal notPromoted notPromotedExpected "multiplied by regular price"

We can also test that adding any quantity of non-promoted products to a basket with non-promoted lines results in a non-promoted basket:

testProperty "not promoted products added to not promoted" <| fun (N : Qty) -> let initial = { lines = [{ productSku = "a" ; quantity = 3 us ; lineTotal = NotPromoted 30 }] total = NotPromoted 30 } let prod = { sku = "sku" ; price = 10 ; promotion = None } let event = AddToBasket(prod, 1 us) let basket = [ 1. .(int N + 1 )] |> List.map ( fun _ -> event) |> List.fold update initial let isNotPromoted = match basket.total with | NotPromoted _ -> true | Promoted _ -> false Expect.isTrue isNotPromoted "should stay not promoted"

We can also test that adding any quantity of not promoted products to a basket with a promoted line results in a promoted basket, with the same discount as before:

testProperty "not promoted products added to promoted" <| fun (N : Qty) -> let initial = { lines = [{ productSku = "a" ; quantity = 3 us ; lineTotal = Promoted( 30 , 11 , 19 ) }] total = Promoted( 30 , 11 , 19 ) } let prod = { sku = "sku" ; price = 10 ; promotion = None } let event = AddToBasket(prod, 1 us) let basket = [ 1. .(int N + 1 )] |> List.map ( fun _ -> event) |> List.fold update initial let isPromoted = match basket.total with | NotPromoted _ -> false | Promoted(_, discount, _) -> Expect.equal discount 11 "discount is the same" true Expect.isTrue isPromoted "should stay promoted"

I think these tests are enough to have a lot of confidence in the code, but of course they don't assure absolute correctness. So, if you have any other ideas for interesting properties to test, please write it in the comment section!

Conclusions

Now we have a function that transforms a list of events into a relatively complex basket. I really like how the code is very declarative, and is also self explanatory. The type system contributes to that. This, combined with the property tests, makes me feel very confident in the correctness of this code.

As a side note, I'm completely sold on ML languages now :). Not only do I tend to find my code more reliable and safe, it's also more concise and readable. After these last months experimenting with Elm and F#, I think that ML languages take all the benefits of a dynamic functional language like Clojure to a whole new level.

The final code for the domain is here, and the final code for the tests are here.

Next Steps

That is my "planned last part" of this series. But this exercise could go in two different directions from here: either building an actual application using this domain model, a web API for example, or evolving the domain model, by adding either new commands or read models. Feel free to share any ideas you have!

February 28, 2017.