In theory, polymorphic variants are the right tool for the job : they allow to express exactly what is asked for -- even in presence of recursive datatypes, if carefully formulated using open recursion and fixpoint. See Jacques Garrigue paper "Code reuse through polymorphic variants" for an introduction and interesting examples : http://www.math.nagoya-u.ac.jp/~garrigue/papers/fose2000.html
In practice, they come with the downside of being more difficult to use than closed variants. I personally keep using your solution (1) to preserve simplicity; that usually means a finite number of dumb-looking "| Ast.Assign -> Cfg.Assign" branches in each pattern matching, but nothing really problematic for code quality or maintenance. The problem with polymorphic variants is that they are so flexible that type inference cannot help you a lot with errors in polymorphic variants code. For example, if you mistype one constructor name, the compiler won't be able to flag an error, it will only infer a slightly different types with the usual constructors, plus the misspelled one. Errors will only be spotted later, when you try to combine the faulty code with a function with strict assumptions on the variants (closed pattern matching), with an unwieldy error message. My advice for polymorphic variant beginners is to massively use annotations to control type-checking : every time you take a polymorphic variant as input, or output one, the function should be annotated with a precise type for the variant part. This will shield you from most inference issues, and force you to build an expressive set of type definitions (as Pietro demonstrated) that can be composed and help reason about your program. On Fri, Nov 4, 2011 at 2:43 PM, Pietro Abate <[email protected]> wrote: > hello, > using polymorphic variants maybe ? > > # module Cfg = struct type statement = [ `Assign | `Guard ] end;; > module Cfg : sig type statement = [ `Assign | `Guard ] end > > # module Ast = struct type statement = [ Cfg.statement | `Goto | `Label ] > end;; > module Ast : sig type statement = [ `Assign | `Goto | `Guard | `Label ] end > > p > > On Fri, Nov 04, 2011 at 02:06:23PM +0100, Markus Weißmann wrote: >> Hello everyone, >> >> I'm writing on a compiler and want to subtype the "statements" that can >> occur in my code: >> At first I have an abstract syntax tree that can hold any statement of the >> language. From that I create a control flow graph that will only have >> non-control-flow statements (a true subset of the Ast-statements). >> Whats the best way to realize that? >> >> Basically I have: >> >> module Ast: type statement = Assign | Guard | Goto | Label >> module Cfg: type statement = Assign | Guard >> >> >> I see three -- not so elegant -- solutions to this: >> >> 1.) type-safe but imho quite ugly code: >> module Cfg: type statement = Assign | Guard >> module Ast: type statement = Base of Cfg.statement | Goto | Label >> >> 2.) use the same type for both and give up the safety that wrong types >> cannot show up in the Cfg >> >> 3.) use objects >> >> Did I miss the type-safe, elegant, module-based solution somehow? Or is >> 1.) as good as it gets? >> >> >> Best regards >> >> -Markus >> >> -- >> Markus Weißmann, M.Sc. >> Institut für Informatik >> Technische Universität München >> Raum 03.07.054, Boltzmannstr. 3, 85748 Garching >> >> Tel. +49 (89) 2 89-1 81 05 >> Fax +49 (89) 2 89-1 81 07 >> >> mailto:[email protected] >> >> >> -- >> Caml-list mailing list. Subscription management and archives: >> https://sympa-roc.inria.fr/wws/info/caml-list >> Beginner's list: http://groups.yahoo.com/group/ocaml_beginners >> Bug reports: http://caml.inria.fr/bin/caml-bugs > > -- > ---- > http://en.wikipedia.org/wiki/Posting_style > > -- > Caml-list mailing list. Subscription management and archives: > https://sympa-roc.inria.fr/wws/info/caml-list > Beginner's list: http://groups.yahoo.com/group/ocaml_beginners > Bug reports: http://caml.inria.fr/bin/caml-bugs > > -- Caml-list mailing list. Subscription management and archives: https://sympa-roc.inria.fr/wws/info/caml-list Beginner's list: http://groups.yahoo.com/group/ocaml_beginners Bug reports: http://caml.inria.fr/bin/caml-bugs
