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Interpreting a function

I must come up with a function that evaluates an abstract syntax tree and returns the result of its evaluation.

evaluate will have type Exp -> int option

evaluate (Prod(Num 5, Diff(Num 6, Num 1)));; val it : int option = Some 25

@John Palmer How do i go about doing this? Can I use pattern matching? if so how would I do it in order to identify the operation that needs to be done.

Here is what i have come up with? I still dont understand the code per say.

``````let rec evaluate = function
| Num n -> Some n
| Neg e -> match evaluate e with
|Sum (a,b) -> evaluate(a) + evaluate(b)
|Diff(a,b) -> evaluate(a) - evaluate(b)
| Prod (a,b) -> evaluate(a) * evaluate (b)
|Quot (a,b) -> evaluate(a) / evaluate(b)
``````
-

Here are some hints to get started

``````let rec evaluate AST =
match AST with
|Prod(a,b) -> evaluate(a) * evaluate(b)
|Num(a) -> a
....
``````

EDIT

So I assume your data type looks like

``````type AST =
|Num of int
|Neg of AST
|Prod of AST * AST
|Diff of AST * AST
|Quot of AST * AST
|Sum of AST * AST
``````

so you set up your AST (presumably you are parsing this from somewhere - which is a whole other question) with something like

``````let ast = Prod(Num 5, Diff(Num 6, Num 1))
``````

then you can define evaluate as

``````let rec evaluate arg =
match arg with
|Num n -> n
|Neg tree -> - (evaluate tree)
|Sum (a,b) -> (evaluate a) + (evaluate b)
|Prod(a,b) -> (evaluate a) * (evaluate b)
|Quot(a,b) -> (evaluate a) * (evaluate b)
|Diff(a,b) -> (evaluate a) - (evaluate b)
``````

then call it and print the result with

``````printfn "%i" (evaluate ast)
``````

Note that `evaluate` has to have type `AST -> int` as otherwise you will need to handle option cases - for example what is `2 * None` or `2 + None`

I am not sure what you mean by

how should i go about calling the recursive method on smaller inputs.

but hopefully this explains everything

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`evaluate` needs to be recursive, i.e. `let rec evaluate ...` – Stephen Swensen Mar 6 '12 at 3:09
@StephenSwensen - thanks for that, fixed the answer – John Palmer Mar 6 '12 at 3:41
please see edited post – user1072706 Mar 6 '12 at 5:38
@user1072706 - updated anwser I hope it is clear – John Palmer Mar 6 '12 at 7:14
Okay I got it to work with ints , but I am supposed to return Some int. Now, when I do |Num n -> Some n I get ~vs3783.fsx(118,34): error FS0001: This expression was expected to have type int option but here has type Exp > – user1072706 Mar 6 '12 at 18:11

Start by looking into grammars, lexers, and parsers to generate your AST for you. Once you have that, it's a simple matter of walking the tree and evaluating it.

Here's a link to one for F#:

http://www.quanttec.com/fparsec/

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Sounds like they already have an AST and just want to evaluate it. – Jon Harrop Mar 6 '12 at 13:27

I published a little interpreter written in OCaml for a tiny functional language here. Note the `eval` function in particular. Your problem is simpler because you don't have variables so you don't need the `vars` dictionary I had and you're always returning `int` results so you don't need the `value` union type.

To evaluate an integer expression you just evaluate the subexpressions and do something simple with them. This is most elegantly written as a pattern match:

``````type Expr =
| Int of int
| Neg of Expr
| Add of Expr * Expr
| Mul of Expr * Expr

let rec eval = function
| Int n -> n
| Neg f -> -eval f
| Add(f, g) -> eval f + eval g
| Mul(f, g) -> eval f * eval g
``````

For example:

``````Mul(Int 2, Neg(Int 3)) |> eval
``````

The advantage of pattern matching is that you can add more complicated actions based upon the contents and shape of the data structure. For example:

``````| Add(f, Neg g) -> eval f - eval g
``````

Before you know it you're doing computer algebra.

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great explanation – user1072706 Mar 6 '12 at 18:08