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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2014 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*s Production of Haskell syntax. *)
open Pp
open Util
open Names
open Nameops
open Libnames
open Table
open Miniml
open Mlutil
open Common
(*s Haskell renaming issues. *)
let pr_lower_id id = str (String.uncapitalize (string_of_id id))
let pr_upper_id id = str (String.capitalize (string_of_id id))
let keywords =
List.fold_right (fun s -> Idset.add (id_of_string s))
[ "case"; "class"; "data"; "default"; "deriving"; "do"; "else";
"if"; "import"; "in"; "infix"; "infixl"; "infixr"; "instance";
"let"; "module"; "newtype"; "of"; "then"; "type"; "where"; "_"; "__";
"as"; "qualified"; "hiding" ; "unit" ; "unsafeCoerce" ]
Idset.empty
let preamble mod_name used_modules usf =
let pp_import mp = str ("import qualified "^ string_of_modfile mp ^"\n")
in
(if not usf.magic then mt ()
else
str "{-# OPTIONS_GHC -cpp -fglasgow-exts #-}\n" ++
str "{- For Hugs, use the option -F\"cpp -P -traditional\" -}\n\n")
++
str "module " ++ pr_upper_id mod_name ++ str " where" ++ fnl2 () ++
str "import qualified Prelude" ++ fnl () ++
prlist pp_import used_modules ++ fnl () ++
(if used_modules = [] then mt () else fnl ()) ++
(if not usf.magic then mt ()
else str "\
\nunsafeCoerce :: a -> b\
\n#ifdef __GLASGOW_HASKELL__\
\nimport qualified GHC.Base\
\nunsafeCoerce = GHC.Base.unsafeCoerce#\
\n#else\
\n-- HUGS\
\nimport qualified IOExts\
\nunsafeCoerce = IOExts.unsafeCoerce\
\n#endif" ++ fnl2 ())
++
(if not usf.mldummy then mt ()
else str "__ :: any" ++ fnl () ++
str "__ = Prelude.error \"Logical or arity value used\"" ++ fnl2 ())
let pp_abst = function
| [] -> (mt ())
| l -> (str "\\" ++
prlist_with_sep (fun () -> (str " ")) pr_id l ++
str " ->" ++ spc ())
(*s The pretty-printer for haskell syntax *)
let pp_global k r =
if is_inline_custom r then str (find_custom r)
else str (Common.pp_global k r)
(*s Pretty-printing of types. [par] is a boolean indicating whether parentheses
are needed or not. *)
let kn_sig =
let specif = MPfile (dirpath_of_string "Coq.Init.Specif") in
make_mind specif empty_dirpath (mk_label "sig")
let rec pp_type par vl t =
let rec pp_rec par = function
| Tmeta _ | Tvar' _ -> assert false
| Tvar i ->
(try pr_id (List.nth vl (pred i))
with e when Errors.noncritical e -> (str "a" ++ int i))
| Tglob (r,[]) -> pp_global Type r
| Tglob (IndRef(kn,0),l)
when not (keep_singleton ()) && kn = mk_ind "Coq.Init.Specif" "sig" ->
pp_type true vl (List.hd l)
| Tglob (r,l) ->
pp_par par
(pp_global Type r ++ spc () ++
prlist_with_sep spc (pp_type true vl) l)
| Tarr (t1,t2) ->
pp_par par
(pp_rec true t1 ++ spc () ++ str "->" ++ spc () ++ pp_rec false t2)
| Tdummy _ -> str "()"
| Tunknown -> str "()"
| Taxiom -> str "() -- AXIOM TO BE REALIZED\n"
in
hov 0 (pp_rec par t)
(*s Pretty-printing of expressions. [par] indicates whether
parentheses are needed or not. [env] is the list of names for the
de Bruijn variables. [args] is the list of collected arguments
(already pretty-printed). *)
let expr_needs_par = function
| MLlam _ -> true
| MLcase _ -> false (* now that we use the case ... of { ... } syntax *)
| _ -> false
let rec pp_expr par env args =
let apply st = pp_apply st par args
and apply2 st = pp_apply2 st par args in
function
| MLrel n ->
let id = get_db_name n env in apply (pr_id id)
| MLapp (f,args') ->
let stl = List.map (pp_expr true env []) args' in
pp_expr par env (stl @ args) f
| MLlam _ as a ->
let fl,a' = collect_lams a in
let fl,env' = push_vars (List.map id_of_mlid fl) env in
let st = (pp_abst (List.rev fl) ++ pp_expr false env' [] a') in
apply2 st
| MLletin (id,a1,a2) ->
let i,env' = push_vars [id_of_mlid id] env in
let pp_id = pr_id (List.hd i)
and pp_a1 = pp_expr false env [] a1
and pp_a2 = pp_expr (not par && expr_needs_par a2) env' [] a2 in
let pp_def =
str "let {" ++ cut () ++
hov 1 (pp_id ++ str " = " ++ pp_a1 ++ str "}")
in
apply2 (hv 0 (hv 0 (hv 1 pp_def ++ spc () ++ str "in") ++
spc () ++ hov 0 pp_a2))
| MLglob r ->
apply (pp_global Term r)
| MLcons (_,r,a) as c ->
assert (args=[]);
begin match a with
| _ when is_native_char c -> pp_native_char c
| [] -> pp_global Cons r
| [a] ->
pp_par par (pp_global Cons r ++ spc () ++ pp_expr true env [] a)
| _ ->
pp_par par (pp_global Cons r ++ spc () ++
prlist_with_sep spc (pp_expr true env []) a)
end
| MLtuple l ->
assert (args=[]);
pp_boxed_tuple (pp_expr true env []) l
| MLcase (_,t, pv) when is_custom_match pv ->
if not (is_regular_match pv) then
error "Cannot mix yet user-given match and general patterns.";
let mkfun (ids,_,e) =
if ids <> [] then named_lams (List.rev ids) e
else dummy_lams (ast_lift 1 e) 1
in
let pp_branch tr = pp_expr true env [] (mkfun tr) ++ fnl () in
let inner =
str (find_custom_match pv) ++ fnl () ++
prvect pp_branch pv ++
pp_expr true env [] t
in
apply2 (hov 2 inner)
| MLcase (typ,t,pv) ->
apply2
(v 0 (str "case " ++ pp_expr false env [] t ++ str " of {" ++
fnl () ++ pp_pat env pv))
| MLfix (i,ids,defs) ->
let ids',env' = push_vars (List.rev (Array.to_list ids)) env in
pp_fix par env' i (Array.of_list (List.rev ids'),defs) args
| MLexn s ->
(* An [MLexn] may be applied, but I don't really care. *)
pp_par par (str "Prelude.error" ++ spc () ++ qs s)
| MLdummy ->
str "__" (* An [MLdummy] may be applied, but I don't really care. *)
| MLmagic a ->
pp_apply (str "unsafeCoerce") par (pp_expr true env [] a :: args)
| MLaxiom -> pp_par par (str "Prelude.error \"AXIOM TO BE REALIZED\"")
and pp_cons_pat par r ppl =
pp_par par
(pp_global Cons r ++ space_if (ppl<>[]) ++ prlist_with_sep spc identity ppl)
and pp_gen_pat par ids env = function
| Pcons (r,l) -> pp_cons_pat par r (List.map (pp_gen_pat true ids env) l)
| Pusual r -> pp_cons_pat par r (List.map pr_id ids)
| Ptuple l -> pp_boxed_tuple (pp_gen_pat false ids env) l
| Pwild -> str "_"
| Prel n -> pr_id (get_db_name n env)
and pp_one_pat env (ids,p,t) =
let ids',env' = push_vars (List.rev_map id_of_mlid ids) env in
hov 2 (str " " ++
pp_gen_pat false (List.rev ids') env' p ++
str " ->" ++ spc () ++
pp_expr (expr_needs_par t) env' [] t)
and pp_pat env pv =
prvecti
(fun i x ->
pp_one_pat env pv.(i) ++
if i = Array.length pv - 1 then str "}" else
(str ";" ++ fnl ()))
pv
(*s names of the functions ([ids]) are already pushed in [env],
and passed here just for convenience. *)
and pp_fix par env i (ids,bl) args =
pp_par par
(v 0
(v 1 (str "let {" ++ fnl () ++
prvect_with_sep (fun () -> str ";" ++ fnl ())
(fun (fi,ti) -> pp_function env (pr_id fi) ti)
(array_map2 (fun a b -> a,b) ids bl) ++
str "}") ++
fnl () ++ str "in " ++ pp_apply (pr_id ids.(i)) false args))
and pp_function env f t =
let bl,t' = collect_lams t in
let bl,env' = push_vars (List.map id_of_mlid bl) env in
(f ++ pr_binding (List.rev bl) ++
str " =" ++ fnl () ++ str " " ++
hov 2 (pp_expr false env' [] t'))
(*s Pretty-printing of inductive types declaration. *)
let pp_comment s = str "-- " ++ s ++ fnl ()
let pp_logical_ind packet =
pp_comment (pr_id packet.ip_typename ++ str " : logical inductive") ++
pp_comment (str "with constructors : " ++
prvect_with_sep spc pr_id packet.ip_consnames)
let pp_singleton kn packet =
let l = rename_tvars keywords packet.ip_vars in
let l' = List.rev l in
hov 2 (str "type " ++ pp_global Type (IndRef (kn,0)) ++ spc () ++
prlist_with_sep spc pr_id l ++
(if l <> [] then str " " else mt ()) ++ str "=" ++ spc () ++
pp_type false l' (List.hd packet.ip_types.(0)) ++ fnl () ++
pp_comment (str "singleton inductive, whose constructor was " ++
pr_id packet.ip_consnames.(0)))
let pp_one_ind ip pl cv =
let pl = rename_tvars keywords pl in
let pp_constructor (r,l) =
(pp_global Cons r ++
match l with
| [] -> (mt ())
| _ -> (str " " ++
prlist_with_sep
(fun () -> (str " ")) (pp_type true pl) l))
in
str (if Array.length cv = 0 then "type " else "data ") ++
pp_global Type (IndRef ip) ++
prlist_strict (fun id -> str " " ++ pr_lower_id id) pl ++ str " =" ++
if Array.length cv = 0 then str " () -- empty inductive"
else
(fnl () ++ str " " ++
v 0 (str " " ++
prvect_with_sep (fun () -> fnl () ++ str "| ") pp_constructor
(Array.mapi (fun i c -> ConstructRef (ip,i+1),c) cv)))
let rec pp_ind first kn i ind =
if i >= Array.length ind.ind_packets then
if first then mt () else fnl ()
else
let ip = (kn,i) in
let p = ind.ind_packets.(i) in
if is_custom (IndRef (kn,i)) then pp_ind first kn (i+1) ind
else
if p.ip_logical then
pp_logical_ind p ++ pp_ind first kn (i+1) ind
else
pp_one_ind ip p.ip_vars p.ip_types ++ fnl () ++
pp_ind false kn (i+1) ind
(*s Pretty-printing of a declaration. *)
let pp_decl = function
| Dind (kn,i) when i.ind_kind = Singleton ->
pp_singleton kn i.ind_packets.(0) ++ fnl ()
| Dind (kn,i) -> hov 0 (pp_ind true kn 0 i)
| Dtype (r, l, t) ->
if is_inline_custom r then mt ()
else
let l = rename_tvars keywords l in
let st =
try
let ids,s = find_type_custom r in
prlist (fun id -> str (id^" ")) ids ++ str "=" ++ spc () ++ str s
with Not_found ->
prlist (fun id -> pr_id id ++ str " ") l ++
if t = Taxiom then str "= () -- AXIOM TO BE REALIZED\n"
else str "=" ++ spc () ++ pp_type false l t
in
hov 2 (str "type " ++ pp_global Type r ++ spc () ++ st) ++ fnl2 ()
| Dfix (rv, defs, typs) ->
let names = Array.map
(fun r -> if is_inline_custom r then mt () else pp_global Term r) rv
in
prvecti
(fun i r ->
let void = is_inline_custom r ||
(not (is_custom r) && defs.(i) = MLexn "UNUSED")
in
if void then mt ()
else
names.(i) ++ str " :: " ++ pp_type false [] typs.(i) ++ fnl () ++
(if is_custom r then
(names.(i) ++ str " = " ++ str (find_custom r))
else
(pp_function (empty_env ()) names.(i) defs.(i)))
++ fnl2 ())
rv
| Dterm (r, a, t) ->
if is_inline_custom r then mt ()
else
let e = pp_global Term r in
e ++ str " :: " ++ pp_type false [] t ++ fnl () ++
if is_custom r then
hov 0 (e ++ str " = " ++ str (find_custom r) ++ fnl2 ())
else
hov 0 (pp_function (empty_env ()) e a ++ fnl2 ())
let rec pp_structure_elem = function
| (l,SEdecl d) -> pp_decl d
| (l,SEmodule m) -> pp_module_expr m.ml_mod_expr
| (l,SEmodtype m) -> mt ()
(* for the moment we simply discard module type *)
and pp_module_expr = function
| MEstruct (mp,sel) -> prlist_strict pp_structure_elem sel
| MEfunctor _ -> mt ()
(* for the moment we simply discard unapplied functors *)
| MEident _ | MEapply _ -> assert false
(* should be expansed in extract_env *)
let pp_struct =
let pp_sel (mp,sel) =
push_visible mp [];
let p = prlist_strict pp_structure_elem sel in
pop_visible (); p
in
prlist_strict pp_sel
let haskell_descr = {
keywords = keywords;
file_suffix = ".hs";
preamble = preamble;
pp_struct = pp_struct;
sig_suffix = None;
sig_preamble = (fun _ _ _ -> mt ());
pp_sig = (fun _ -> mt ());
pp_decl = pp_decl;
}
|