| `Forall -> "\\forall"
| `Exists -> "\\exists"
-let add_level_info prec assoc t = Ast.AttributedTerm (`Level (prec, assoc), t)
-let add_pos_info pos t = Ast.AttributedTerm (`ChildPos pos, t)
-let left_pos = add_pos_info `Left
-let right_pos = add_pos_info `Right
-let inner_pos = add_pos_info `Inner
-
-let rec top_pos t = add_level_info ~-1 Gramext.NonA (inner_pos t)
-(* function
- | Ast.AttributedTerm (`Level _, t) ->
- add_level_info ~-1 Gramext.NonA (inner_pos t)
- | Ast.AttributedTerm (attr, t) -> Ast.AttributedTerm (attr, top_pos t)
- | t -> add_level_info ~-1 Gramext.NonA (inner_pos t) *)
+let add_level_info prec t = Ast.AttributedTerm (`Level prec, t)
+
+let rec top_pos t = add_level_info ~-1 t
let rec remove_level_info =
function
| `Set -> "Set"
| `CProp _ -> "CProp"
| `Type _ -> "Type"
+ | `NType s -> "Type[" ^ s ^ "]"
+
+let map_space f l =
+ HExtlib.list_concat
+ ~sep:[space] (List.map (fun x -> [f x]) l)
+;;
let pp_ast0 t k =
let rec aux =
function
| Ast.Appl ts ->
- let rec aux_args pos =
+ let rec aux_args level =
function
| [] -> []
| [ last ] ->
- let last = k last in
- if pos = `Left then [ left_pos last ] else [ right_pos last ]
+ [ Ast.AttributedTerm (`Level level,k last) ]
| hd :: tl ->
- (add_pos_info pos (k hd)) :: aux_args `Inner tl
+ (Ast.AttributedTerm (`Level level, k hd)) :: aux_args 71 tl
in
- add_level_info Ast.apply_prec Ast.apply_assoc
- (hovbox true true (CicNotationUtil.dress break (aux_args `Left ts)))
+ add_level_info Ast.apply_prec
+ (hovbox true true (CicNotationUtil.dress break (aux_args 70 ts)))
| Ast.Binder (binder_kind, (id, ty), body) ->
- add_level_info Ast.binder_prec Ast.binder_assoc
+ add_level_info Ast.binder_prec
(hvbox false true
[ binder_symbol (resolve_binder binder_kind);
k id; builtin_symbol ":"; aux_ty ty; break;
- builtin_symbol "."; right_pos (k body) ])
+ builtin_symbol "."; k body ])
| Ast.Case (what, indty_opt, outty_opt, patterns) ->
let outty_box =
match outty_opt with
let mk_case_pattern =
function
Ast.Pattern (head, href, vars) ->
- hbox true false (ident_w_href href head :: List.map aux_var vars)
+ hvbox true true (ident_w_href href head ::
+ List.flatten (List.map (fun x -> [break;x]) (map_space aux_var vars)))
| Ast.Wildcard -> builtin_symbol "_"
in
let patterns' =
List.map
(fun (lhs, rhs) ->
remove_level_info
- (hvbox false true [
- hbox false true [
- mk_case_pattern lhs; builtin_symbol "\\Rightarrow" ];
+ (hovbox false true [
+ mk_case_pattern lhs; break; builtin_symbol "\\Rightarrow";
break; top_pos (k rhs) ]))
patterns
in
hbox false false [ builtin_symbol "["; hd ]
:: aux_patterns tl
in
- add_level_info Ast.simple_prec Ast.simple_assoc
+ add_level_info Ast.simple_prec
(hvbox false false [
hvbox false false ([match_box]); break;
hbox false false [ hvbox false false patterns'' ] ])
| Ast.Cast (bo, ty) ->
- add_level_info Ast.simple_prec Ast.simple_assoc
+ add_level_info Ast.simple_prec
(hvbox false true [
builtin_symbol "("; top_pos (k bo); break; builtin_symbol ":";
top_pos (k ty); builtin_symbol ")"])
| Ast.LetIn (var, s, t) ->
- add_level_info Ast.let_in_prec Ast.let_in_assoc
+ add_level_info Ast.let_in_prec
(hvbox false true [
hvbox false true [
keyword "let"; space;
hvbox false true [
aux_var var; space;
builtin_symbol "\\def"; break; top_pos (k s) ];
- break; space; keyword "in" ];
+ break; space; keyword "in"; space ];
break;
k t ])
| Ast.LetRec (rec_kind, funs, where) ->
match rec_kind with `Inductive -> "rec" | `CoInductive -> "corec"
in
let mk_fun (args, (name,ty), body, rec_param) =
- List.map aux_var args ,k name, HExtlib.map_option k ty, k body,
- fst (List.nth args rec_param)
+ List.flatten (List.map (fun x -> [aux_var x; space]) args),
+ k name, HExtlib.map_option k ty, k body, fst (List.nth args rec_param)
in
let mk_funs = List.map mk_fun in
let fst_fun, tl_funs =
space;
keyword rec_op;
space;
- name] @
+ name;
+ space] @
params @
- [space; keyword "on" ; space ; rec_param ;space ] @
+ [keyword "on" ; space ; rec_param ;space ] @
(match ty with None -> [] | Some ty -> [builtin_symbol ":"; ty]) @
[ builtin_symbol "\\def";
break;
[ builtin_symbol "\\def"; break; body ])])
tl_funs
in
- add_level_info Ast.let_in_prec Ast.let_in_assoc
+ add_level_info Ast.let_in_prec
((hvbox false false
(fst_row :: List.flatten tl_rows
@ [ break; keyword "in"; break; k where ])))
(* persistent state *)
-let level1_patterns21 = Hashtbl.create 211
-
+let initial_level1_patterns21 () = Hashtbl.create 211
+let level1_patterns21 = ref (initial_level1_patterns21 ())
let compiled21 = ref None
-
let pattern21_matrix = ref []
+let counter = ref ~-1
+
+let stack = ref [];;
+
+let push () =
+ stack := (!counter,!level1_patterns21,!compiled21,!pattern21_matrix)::!stack;
+ counter := ~-1;
+ level1_patterns21 := initial_level1_patterns21 ();
+ compiled21 := None;
+ pattern21_matrix := []
+;;
+
+let pop () =
+ match !stack with
+ [] -> assert false
+ | (ocounter,olevel1_patterns21,ocompiled21,opatterns21_matrix)::old ->
+ stack := old;
+ counter := ocounter;
+ level1_patterns21 := olevel1_patterns21;
+ compiled21 := ocompiled21;
+ pattern21_matrix := opatterns21_matrix
+;;
let get_compiled21 () =
match !compiled21 with
assert (CicNotationEnv.well_typed ty value); (* INVARIANT *)
(* following assertion should be a conditional that makes this
* instantiation fail *)
- assert (CicNotationEnv.well_typed expected_ty value);
- [ add_pos_info pos (CicNotationEnv.term_of_value value) ]
+ if not (CicNotationEnv.well_typed expected_ty value) then
+ begin
+ prerr_endline ("The variable " ^ name ^ " is used with the wrong type in the notation declaration");
+ assert false
+ end;
+ let value = CicNotationEnv.term_of_value value in
+ let value =
+ match expected_ty with
+ | Env.TermType l -> Ast.AttributedTerm (`Level l,value)
+ | _ -> value
+ in
+ [ value ]
| Ast.Magic m -> subst_magic pos env m
| Ast.Literal l as t ->
let t = add_idrefs idrefs t in
let sep =
match sep_opt with
| None -> []
- | Some l -> [ Ast.Literal l ]
+ | Some l -> [ Ast.Literal l; break; space ]
in
let rec instantiate_list acc = function
| [] -> List.rev acc
let terms = subst pos env p in
instantiate_list (CicNotationUtil.group (terms @ sep) :: acc) tl
in
- instantiate_list [] values
+ if values = [] then []
+ else [hovbox false false (instantiate_list [] values)]
| Ast.Opt p ->
let opt_decls = CicNotationEnv.declarations_of_term p in
let env =
in
let l1 =
try
- Hashtbl.find level1_patterns21 pid
+ Hashtbl.find !level1_patterns21 pid
with Not_found -> assert false
in
instantiate21 idrefs (ast_env_of_env env) l1)
in
aux true l1_pattern *)
-let counter = ref ~-1
-let reset () = counter := ~-1;;
let fresh_id =
fun () ->
incr counter;
!counter
-let add_pretty_printer ~precedence ~associativity l2 l1 =
+let add_pretty_printer l2 (CicNotationParser.CL1P (l1,precedence)) =
let id = fresh_id () in
- let l1' = add_level_info precedence associativity (fill_pos_info l1) in
+ let l1' = add_level_info precedence (fill_pos_info l1) in
let l2' = CicNotationUtil.strip_attributes l2 in
- Hashtbl.add level1_patterns21 id l1';
+ Hashtbl.add !level1_patterns21 id l1';
pattern21_matrix := (l2', id) :: !pattern21_matrix;
load_patterns21 !pattern21_matrix;
id
let remove_pretty_printer id =
(try
- Hashtbl.remove level1_patterns21 id;
+ Hashtbl.remove !level1_patterns21 id;
with Not_found -> raise Pretty_printer_not_found);
pattern21_matrix := List.filter (fun (_, id') -> id <> id') !pattern21_matrix;
load_patterns21 !pattern21_matrix
(match ty, v with
| Env.ListType ty, Env.ListValue (v :: _) ->
aux ((name, (ty, v)) :: acc) tl
+ | Env.TermType _, Env.TermValue _ ->
+ aux ((name, (ty, v)) :: acc) tl
| _ -> assert false)
| _ :: tl -> aux acc tl
(* base pattern may contain only meta names, thus we trash all others *)
(match ty, v with
| Env.ListType ty, Env.ListValue (_ :: vtl) ->
aux ((name, (Env.ListType ty, Env.ListValue vtl)) :: acc) tl
+ | Env.TermType _, Env.TermValue _ ->
+ aux ((name, (ty, v)) :: acc) tl
| _ -> assert false)
| binding :: tl -> aux (binding :: acc) tl
| [] -> acc
aux [] env
let instantiate_level2 env term =
+(* prerr_endline ("istanzio: " ^ CicNotationPp.pp_term term); *)
let fresh_env = ref [] in
let lookup_fresh_name n =
try
new_name
in
let rec aux env term =
-(* prerr_endline ("ENV " ^ CicNotationPp.pp_env env); *)
+(* prerr_endline ("ENV " ^ CicNotationPp.pp_env env); *)
match term with
- | Ast.AttributedTerm (_, term) -> aux env term
+ | Ast.AttributedTerm (a, term) -> (*Ast.AttributedTerm (a, *)aux env term
| Ast.Appl terms -> Ast.Appl (List.map (aux env) terms)
| Ast.Binder (binder, var, body) ->
Ast.Binder (binder, aux_capture_var env var, aux env body)
| Ast.Magic magic -> aux_magic env magic
| Ast.Variable var -> aux_variable env var
+ | Ast.Cast (t, ty) -> Ast.Cast (aux env t, aux env ty)
+
| _ -> assert false
and aux_opt env = function
| Some term -> Some (aux env term)
and aux_variable env = function
| Ast.NumVar name -> Ast.Num (Env.lookup_num env name, 0)
| Ast.IdentVar name -> Ast.Ident (Env.lookup_string env name, None)
- | Ast.TermVar name -> Env.lookup_term env name
+ | Ast.TermVar (name,(Ast.Level l|Ast.Self l)) ->
+ Ast.AttributedTerm (`Level l,Env.lookup_term env name)
| Ast.FreshVar name -> Ast.Ident (lookup_fresh_name name, None)
| Ast.Ascription (term, name) -> assert false
and aux_magic env = function
| Env.ListValue (_ :: _) ->
instantiate_fold_left
(let acc_binding =
- acc_name, (Env.TermType, Env.TermValue acc)
+ acc_name, (Env.TermType 0, Env.TermValue acc)
in
aux (acc_binding :: head_names names env') rec_pattern)
(tail_names names env')
| Env.ListValue (_ :: _) ->
let acc = instantiate_fold_right (tail_names names env') in
let acc_binding =
- acc_name, (Env.TermType, Env.TermValue acc)
+ acc_name, (Env.TermType 0, Env.TermValue acc)
in
aux (acc_binding :: head_names names env') rec_pattern
| Env.ListValue [] -> aux env base_pattern