The fslex and fsyacc tools were specifically written for the F# compiler and were not intended for wider use. That said, I have managed to get significant code bases ported from OCaml to F# thanks to these tools but it was laborious due to the complete lack of VS integration on the F# side (OCaml has excellent integration with syntax highlighting, jump to definition and error throwback). In particular, I moved as much of the F# code out of the lexer and parser as possible.
We have often needed to write parsers and have asked Microsoft to add official support for fslex and fsyacc but I do not believe this will happen.
My advice would be to use fslex and fsyacc only if you are facing translating a large legacy OCaml code base that uses ocamllex and ocamlyacc. Otherwise, write a parser from scratch.
I am personally not a fan of parser combinator libraries and prefer to write parsers using active patterns that look something like this s-expression parser:
let alpha = set['A'..'Z'] + set['a'..'z']
let numeric = set['0'..'9']
let alphanumeric = alpha + numeric
let (|Empty|Next|) (s: string, i) =
if i < s.Length then Next(s.[i], (s, i+1)) else Empty
let (|Char|_|) alphabet = function
| Empty -> None
| s, i when Set.contains s.[i] alphabet -> Some(s, i+1)
| _ -> None
let rec (|Chars|) alphabet = function
| Char alphabet (Chars alphabet it)
| it -> it
let sub (s: string, i0) (_, i1) =
let rec (|SExpr|_|) = function
| Next ((' ' | '\n' | '\t'), SExpr(f, it)) -> Some(f, it)
| Char alpha (Chars alphanumeric it1) as it0 -> Some(box(sub it0 it1), it1)
| Next ('(', SExprs(fs, Next(')', it))) -> Some(fs, it)
| _ -> None
and (|SExprs|) = function
| SExpr(f, SExprs(fs, it)) -> box(f, fs), it
| it -> null, it
This approach does not require any VS integration because it is just vanilla F# code. I find it easy to read and maintainable. Performance has been more than adequate in my production code.