# Simple interpreter written in OCaml

My example interpreter described in full here.

## Types of expressions and values

Expressions:

```
type expr =
| EAdd of expr * expr
| EApply of expr * expr
| EEqual of expr * expr
| EIf of expr * expr * expr
| EInt of int
| ELetRec of string * string * expr * expr
| EMul of expr * expr
| EVar of string
```

Values:

```
type value =
| VInt of int
| VBool of bool
| VClosure of string * (string * value) list * expr
```

## Lexing and parsing

Use Camlp4 for parsing:

```
#load "camlp4o.cma"
```

Define the lexer:

```
open Genlex
let keywords =
["("; ")"; "+"; "-"; "=";
"if"; "then"; "else";
"let"; "rec"; "in"]
let lex stream =
let rec aux = parser
| [< 'Int n when n<0; t=aux >] -> [< 'Kwd "-"; 'Int(-n); t >]
| [< 'h; t=aux >] -> [< 'h; t >]
| [< >] -> [< >] in
aux(make_lexer keywords stream)
```

Define the parser:

```
let rec parse_atom = parser
| [< 'Int n >] -> EInt n
| [< 'Ident v >] -> EVar v
| [< 'Kwd "("; e=parse_expr; 'Kwd ")" >] -> e
and parse_apply = parser
| [< e1=parse_atom; stream >] ->
(parser
| [< e2=parse_atom >] -> EApply(e1, e2)
| [< e2=parse_apply >] -> begin match e2 with
| EApply(e2, e3) -> EApply(EApply(e1, e2), e3)
| e2 -> EApply(e1, e2)
end
| [< >] -> e1) stream
and parse_arith = parser
| [< e1=parse_apply; stream >] ->
(parser
| [< 'Kwd "+"; e2=parse_arith >] -> EAdd(e1, e2)
| [< 'Kwd "-"; e2=parse_arith >] -> EAdd(e1, EMul(EInt(-1), e2))
| [< >] -> e1) stream
and parse_expr : 'a Stream.t -> expr = parser
| [< e1=parse_arith; stream >] ->
(parser
| [< 'Kwd "="; e2=parse_expr >] -> EEqual(e1, e2)
| [< >] -> e1) stream
| [< 'Kwd "if"; p=parse_expr; 'Kwd "then"; t=parse_expr;
'Kwd "else"; f=parse_expr >] ->
EIf(p, t, f)
| [< 'Kwd "let"; 'Kwd "rec"; 'Ident f; 'Ident x; 'Kwd "="; body=parse_expr;
'Kwd "in"; rest=parse_expr >] ->
ELetRec(f, x, body, rest)
```

## Evaluation

Unbox an int or bool:

```
let int = function VInt n -> n | _ -> invalid_arg "int"
let bool = function VBool b -> b | _ -> invalid_arg "bool"
```

Evaluate an expression to give a value in the context of some bound `vars`

:

```
let rec eval vars = function
| EApply(func, arg) ->
begin
match eval vars func, eval vars arg with
| VClosure(var, vars, body), arg -> eval ((var, arg) :: vars) body
| _ -> invalid_arg "Attempt to apply a non-function value"
end
| EAdd(e1, e2) -> VInt (int(eval vars e1) + int(eval vars e2))
| EMul(e1, e2) -> VInt (int(eval vars e1) * int(eval vars e2))
| EEqual(e1, e2) -> VBool (eval vars e1 = eval vars e2)
| EIf(p, t, f) -> eval vars (if bool (eval vars p) then t else f)
| EInt i -> VInt i
| ELetRec(var, arg, body, rest) ->
let rec vars = (var, VClosure(arg, vars, body)) :: vars in
eval vars rest
| EVar s -> List.assoc s vars
```

## Worked example

Define an example program as a string:

```
let program = "let rec fib n = if n=0 then 0 else if n=1 then 1 else fib(n - 1) + fib(n - 2) in fib 30"
```

Lex and parse the string into an AST:

```
let ast = parse_expr(lex(Stream.of_string program))
```

Evaluate the AST:

```
eval [] ast
```