typer.ml 37.1 KB
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open Cduce_loc
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open Ast
open Ident
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let (=) (x:int) y = x = y
let (<=) (x:int) y = x <= y
let (<) (x:int) y = x < y
let (>=) (x:int) y = x >= y
let (>) (x:int) y = x > y

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let warning loc msg =
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  let v = Cduce_loc.get_viewport () in
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  let ppf = if Html.is_html v then Html.ppf v else Format.err_formatter in
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  Cduce_loc.print_loc ppf (loc,`Full);
  Cduce_loc.html_hilight (loc,`Full);
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  Format.fprintf ppf "Warning: %s@." msg
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exception NonExhaustive of Types.descr
exception Constraint of Types.descr * Types.descr
exception ShouldHave of Types.descr * string
exception ShouldHave2 of Types.descr * string * Types.descr
exception WrongLabel of Types.descr * label
exception UnboundId of id * bool
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exception UnboundExtId of Compunit.t * id
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exception Error of string
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exception Warning of string * Types.t

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let raise_loc loc exn = raise (Location (loc,`Full,exn))
let raise_loc_str loc ofs exn = raise (Location (loc,`Char ofs,exn))
let error loc msg = raise_loc loc (Error msg)

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type schema = {
  sch_uri: string;
  sch_ns: Ns.Uri.t;
  sch_comps: (Types.t * Schema_validator.t) Ident.Env.t;
}

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type item =
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(* These are really exported by CDuce units: *)
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  | Type of Types.t
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  | Val of Types.t
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  | ECDuce of Compunit.t
  | ESchema of schema
  | ENamespace of Ns.Uri.t
(* These are only used internally: *)
  | EVal of Compunit.t * id * Types.t
  | EOCaml of string
  | EOCamlComponent of string
  | ESchemaComponent of (Types.t * Schema_validator.t)
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type t = {
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  ids : item Env.t;
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  delta : fv;
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  gamma : Types.Node.t id_map;
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  ns: Ns.table;
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  keep_ns: bool
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}
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(* Namespaces *)

let set_ns_table_for_printer env = 
  Ns.InternalPrinter.set_table env.ns

let get_ns_table tenv = tenv.ns


let type_keep_ns env k =
  { env with keep_ns = k }

let protect_error_ns loc f x =
  try f x
  with Ns.UnknownPrefix ns ->
    raise_loc_generic loc 
    ("Undefined namespace prefix " ^ (U.to_string ns))

let qname env loc t = 
  protect_error_ns loc (Ns.map_tag env.ns) t
    
let ident env loc t =
  protect_error_ns loc (Ns.map_attr env.ns) t

let parse_atom env loc t = Atoms.V.mk (qname env loc t)
 
let parse_ns env loc ns =
  protect_error_ns loc (Ns.map_prefix env.ns) ns

let parse_label env loc t =
  Label.mk (protect_error_ns loc (Ns.map_attr env.ns) t)

let parse_record env loc f r =
  let r = List.map (fun (l,x) -> (parse_label env loc l, f x)) r in
  LabelMap.from_list (fun _ _ -> raise_loc_generic loc "Duplicated record field") r



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let load_schema = ref (fun _ _ -> assert false)
let from_comp_unit = ref (fun _ -> assert false)
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let load_comp_unit = ref (fun _ -> assert false)
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let has_ocaml_unit = ref (fun _ -> false)
let has_static_external = ref (fun _ -> assert false)
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let type_schema env loc name uri =
  let x = ident env loc name in
  let (ns,sch) = !load_schema (U.to_string name) uri in
  let sch = { sch_uri = uri; sch_comps = sch; sch_ns = ns } in
  { env with ids = Env.add x (ESchema sch) env.ids }
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let empty_env = {
  ids = Env.empty;
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  delta = IdSet.empty; (* set of bounded type variables *)
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  gamma = IdMap.empty; (* map from expression variables to types *)
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  ns = Ns.def_table;
  keep_ns = false
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}

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let enter_id x i env =
  { env with ids = Env.add x i env.ids }
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let type_using env loc x cu = 
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  try 
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    let cu = !load_comp_unit cu in
    enter_id (ident env loc x) (ECDuce cu) env
  with Not_found ->
    error loc ("Cannot find external unit " ^ (U.to_string cu))

let enter_type id t env = enter_id id (Type t) env
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let enter_types l env =
  { env with ids = 
      List.fold_left (fun accu (id,t) -> Env.add id (Type t) accu) env.ids l }

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let find_id env0 env loc head x =
  let id = ident env0 loc x in
  try Env.find id env.ids
  with Not_found when head ->
    try ECDuce (!load_comp_unit x)
    with Not_found ->
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      error loc "Cannot resolve this identifier"
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let find_id_comp env0 env loc x =
  if ((match (U.get_str x).[0] with 'A'..'Z' -> true | _ -> false)
    && !has_ocaml_unit x)
  then EOCaml (U.get_str x)
  else find_id env0 env loc true x

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let enter_value id t env = 
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  { env with ids = Env.add id (Val t) env.ids }
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let enter_values l env =
  { env with ids = 
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      List.fold_left (fun accu (id,t) -> Env.add id (Val t) accu) env.ids l }
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let enter_values_dummy l env =
  { env with ids = 
      List.fold_left (fun accu id -> Env.add id (Val Types.empty) accu) env.ids l }
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let value_name_ok id env =
  try match Env.find id env.ids with
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    | Val _ | EVal _ -> true
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    | _ -> false
  with Not_found -> true

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let iter_values env f =
  Env.iter (fun x ->
	      function Val t -> f x t;
		| _ -> ()) env.ids
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let register_types cu env =
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  Env.iter (fun x t -> match t with
	      | Type t -> Types.Print.register_global cu (Ident.value x) t
	      | _ -> ()) env.ids
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let rec const env loc = function
  | LocatedExpr (loc,e) -> const env loc e
  | Pair (x,y) -> Types.Pair (const env loc x, const env loc y)
  | Xml (x,y) -> Types.Xml (const env loc x, const env loc y)
  | RecordLitt x -> Types.Record (parse_record env loc (const env loc) x)
  | String (i,j,s,c) -> Types.String (i,j,s,const env loc c)
  | Atom t -> Types.Atom (parse_atom env loc t)
  | Integer i -> Types.Integer i
  | Char c -> Types.Char c
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  | Const c -> c
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  | _ -> raise_loc_generic loc "This should be a scalar or structured constant"

(* I. Transform the abstract syntax of types and patterns into
      the internal form *)
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let find_schema_component sch name =
  try ESchemaComponent (Env.find name sch.sch_comps)
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  with Not_found ->    
    raise (Error (Printf.sprintf "No component named '%s' found in schema '%s'"
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		    (Ns.QName.to_string name) sch.sch_uri))


let navig loc env0 (env,comp) id =
  match comp with
    | ECDuce cu ->
	let env = !from_comp_unit cu in
	let c = 
	  try find_id env0 env loc false id
	  with Not_found -> error loc "Unbound identifier" in
	let c = match c with
	  | Val t -> EVal (cu,ident env0 loc id,t)
	  | c -> c in
	env,c
    | EOCaml cu ->
	let s = cu ^ "." ^ (U.get_str id) in
	(match (U.get_str id).[0] with
	   | 'A'..'Z' -> env,EOCaml s
	   | _ -> env,EOCamlComponent s)
    | ESchema sch ->
	env,find_schema_component sch (ident env0 loc id)
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    | Type _ -> error loc "Types don't have components"
    | Val _ | EVal _ -> error loc "Values don't have components"
    | ENamespace _ -> error loc "Namespaces don't have components"
    | EOCamlComponent _ -> error loc "Caml values don't have components"
    | ESchemaComponent _ -> error loc "Schema components don't have components"
(*
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    | _ -> error loc "Invalid dot access"
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*)
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let rec find_global env loc ids =
  match ids with
    | id::rest ->
	let comp = find_id env env loc true id in
	snd (List.fold_left (navig loc env) (env,comp) rest)
    | _ -> assert false
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let eval_ns env loc = function
  | `Uri ns -> ns
  | `Path ids ->
      match find_global env loc ids with
	| ENamespace ns -> ns
	| ESchema sch -> sch.sch_ns
	| _ -> error loc "This path does not refer to a namespace or schema"

let type_ns env loc p ns =
  (* TODO: check that p has no prefix *)
  let ns = eval_ns env loc ns in
  { env with 
      ns = Ns.add_prefix p ns env.ns;
      ids = Env.add (Ns.empty,p) (ENamespace ns) env.ids }
      
let find_global_type env loc ids =
  match find_global env loc ids with
    | Type t | ESchemaComponent (t,_) -> t
    | _ -> error loc "This path does not refer to a type"

let find_global_schema_component env loc ids =
  match find_global env loc ids with
    | ESchemaComponent c -> c
    | _ -> error loc "This path does not refer to a schema component"
  
let find_local_type env loc id =
  match Env.find id env.ids with
    | Type t -> t
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    | _ -> raise Not_found
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let find_value id env =
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  match Env.find id env.ids with
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    | Val t | EVal (_,_,t) -> t
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    | _ -> raise Not_found
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let do_open env cu =
  let env_cu = !from_comp_unit cu in
  let ids = 
    Env.fold
      (fun n d ids ->
	 let d = match d with
	   | Val t -> EVal (cu,n,t)
	   | d -> d in
	 Env.add n d ids)
      env_cu.ids
      env.ids in
  { env with 
      ids = ids;
      ns = Ns.merge_tables env.ns env_cu.ns }
      

let type_open env loc ids =
  match find_global env loc ids with
    | ECDuce cu -> do_open env cu
    | _ -> error loc "This path does not refer to a CDuce unit"

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module IType = struct
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  open Typepat
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(* From AST to the intermediate representation *)

  type penv = {
    penv_tenv : t;
    penv_derec : node Env.t;
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    penv_var : (string, Var.var) Hashtbl.t;
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  }

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  let penv tenv = { penv_tenv = tenv; penv_derec = Env.empty ; penv_var = Hashtbl.create 17 }
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  let all_delayed = ref []

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  let clean_on_err () = all_delayed := []

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  let delayed loc =
    let s = mk_delayed () in
    all_delayed := (loc,s) :: !all_delayed;
    s

  let check_one_delayed (loc,p) =
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    if not (check_wf p) then error loc "Ill-formed recursion"
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  let check_delayed () =
    let l = !all_delayed in
    all_delayed := []; 
    List.iter check_one_delayed l
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  let rec derecurs env p =
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    match p.descr with
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    | TVar s -> mk_type (Types.var (Var.mk s))
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    | PatVar ids -> derecurs_var env p.loc ids
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    | Recurs (p,b) -> derecurs (fst (derecurs_def env b)) p
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    | Internal t -> mk_type t
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    | NsT ns -> 
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	mk_type (Types.atom (Atoms.any_in_ns (parse_ns env.penv_tenv p.loc ns)))
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    | Or (p1,p2) -> mk_or (derecurs env p1) (derecurs env p2)
    | And (p1,p2) -> mk_and (derecurs env p1) (derecurs env p2)
    | Diff (p1,p2) -> mk_diff (derecurs env p1) (derecurs env p2)
    | Prod (p1,p2) -> mk_prod (derecurs env p1) (derecurs env p2)
    | XmlT (p1,p2) -> mk_xml (derecurs env p1) (derecurs env p2)
    | Arrow (p1,p2) -> mk_arrow (derecurs env p1) (derecurs env p2)
    | Optional p -> mk_optional (derecurs env p)
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    | Record (o,r) -> 
	let aux = function
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	  | (p,Some e) -> (derecurs env p, Some (derecurs env e))
	  | (p,None) -> derecurs env p, None in
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	mk_record o (parse_record env.penv_tenv p.loc aux r)
    | Constant (x,c) -> 
	mk_constant (ident env.penv_tenv p.loc x) (const env.penv_tenv p.loc c)
    | Cst c -> mk_type (Types.constant (const env.penv_tenv p.loc c))
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    | Regexp r -> rexp (derecurs_regexp env r)
    | Concat (p1,p2) ->  mk_concat (derecurs env p1) (derecurs env p2)
    | Merge (p1,p2) -> mk_merge (derecurs env p1) (derecurs env p2)
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  and derecurs_regexp env = function
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    | Epsilon -> mk_epsilon
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    | Elem p -> mk_elem (derecurs env p)
    | Guard p -> mk_guard (derecurs env p)
    | Seq (p1,p2) -> mk_seq (derecurs_regexp env p1) (derecurs_regexp env p2)
    | Alt (p1,p2) -> mk_alt (derecurs_regexp env p1) (derecurs_regexp env p2)
    | Star p -> mk_star (derecurs_regexp env p)
    | WeakStar p -> mk_weakstar (derecurs_regexp env p)
    | SeqCapture (loc,x,p) -> mk_seqcapt (ident env.penv_tenv loc x) (derecurs_regexp env p)
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  and derecurs_var env loc ids =
    match ids with
      | [v] ->
	  let v = ident env.penv_tenv loc v in
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	  (try Env.find v env.penv_derec 
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	   with Not_found -> 
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	     try mk_type (find_local_type env.penv_tenv loc v)
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	     with Not_found -> mk_capture v)
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      | ids ->
	  mk_type (find_global_type env.penv_tenv loc ids)
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  and derecurs_def env b =
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    let seen = ref IdSet.empty in
    let b = 
      List.map 
	(fun (loc,v,p) -> 
	   let v = ident env.penv_tenv loc v in
	   if IdSet.mem !seen v then 
	     raise_loc_generic loc
	       ("Multiple definitions for the type identifer " ^ 
		  (Ident.to_string v));
	   seen := IdSet.add v !seen;
	   (v,p,delayed loc))
	b in

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    let n = List.fold_left (fun env (v,p,s) -> Env.add v s env) env.penv_derec b in
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    let env = { env with penv_derec = n } in
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    List.iter (fun (v,p,s) -> link s (derecurs env p)) b;
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    (env, b)

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  let derec penv p =
    let d = derecurs penv p in
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    elim_concats ();
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    check_delayed ();
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    internalize d;
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    d
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(* API *)
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  let check_no_fv loc n =
    match peek_fv n with
      | None -> ()
      | Some x ->
	  raise_loc_generic loc 
	    ("Capture variable not allowed: " ^ (Ident.to_string x))

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  let type_defs env b =
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    let _,b' = derecurs_def (penv env) b in
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    elim_concats ();
    check_delayed ();
    let aux loc d =
      internalize d;
      check_no_fv loc d;
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      try typ d
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      with Patterns.Error s -> raise_loc_generic loc s
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    in
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    let b = 
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      List.map2 
	(fun (loc,v,p) (v',_,d) ->
	   let t = aux loc d in
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	   if (loc <> noloc) && (Types.is_empty t) then
	     warning loc 
	       ("This definition yields an empty type for " ^ (U.to_string v));
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	   (v',t)) b b' in
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    List.iter (fun (v,t) -> Types.Print.register_global "" v t) b;
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    enter_types b env
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  let type_defs env b =
    try type_defs env b
    with exn -> clean_on_err (); raise exn

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  let typ env t = 
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    try
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      let d = derec (penv env) t in
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      check_no_fv t.loc d;
      try typ_node d
      with Patterns.Error s -> raise_loc_generic t.loc s
    with exn -> clean_on_err (); raise exn
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  let pat env t = 
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    try
      let d = derec (penv env) t in
      try pat_node d
      with Patterns.Error s -> raise_loc_generic t.loc s
    with exn -> clean_on_err (); raise exn
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end
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let typ = IType.typ
let pat = IType.pat
let type_defs = IType.type_defs

let dump_types ppf env =
  Env.iter (fun v -> 
	      function 
		  (Type _) -> Format.fprintf ppf " %a" Ident.print v
		| _ -> ()) env.ids

let dump_ns ppf env =
  Ns.dump_table ppf env.ns



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(* II. Build skeleton *)

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type type_fun = Types.t -> bool -> Types.t
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module Fv = IdSet
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type branch = Branch of Typed.branch * branch list

let cur_branch : branch list ref = ref []
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let exp' loc e = 
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  { Typed.exp_loc = loc; Typed.exp_typ = Types.empty; Typed.exp_descr = e }
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let exp loc fv e = fv, exp' loc e

let exp_nil = exp' noloc (Typed.Cst Sequence.nil_cst)

let pat_true = 
  let n = Patterns.make Fv.empty in
  Patterns.define n (Patterns.constr Builtin_defs.true_type);
  n

let pat_false =   
  let n = Patterns.make Fv.empty in
  Patterns.define n (Patterns.constr Builtin_defs.false_type);
  n

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let ops = Hashtbl.create 13
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let register_op op arity f = Hashtbl.add ops op (arity,f)
let typ_op op = snd (Hashtbl.find ops op)
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let fun_name env a =
  match a.fun_name with
    | None -> None
    | Some (loc,s) -> Some (ident env loc s)

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let is_op env s = 
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  if (Env.mem s env.ids) then None
  else
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    let (ns,s) = s in
    if Ns.Uri.equal ns Ns.empty then
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      let s = U.get_str s in
      try 
	let o = Hashtbl.find ops s in
	Some (s, fst o)
      with Not_found -> None
    else None
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let rec expr env loc = function
  | LocatedExpr (loc,e) -> expr env loc e
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  | Forget (e,t) ->
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      let (fv,e) = expr env loc e and t = typ env t in
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      exp loc fv (Typed.Forget (e,t))
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  | Check (e,t) ->
      let (fv,e) = expr env loc e and t = typ env t in
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      exp loc fv (Typed.Check (ref Types.empty,e,t))
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  | Var s -> var env loc s
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  | Apply (e1,e2) -> 
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      let (fv1,e1) = expr env loc e1 and (fv2,e2) = expr env loc e2 in
      let fv = Fv.cup fv1 fv2 in
      (match e1.Typed.exp_descr with
	 | Typed.Op (op,arity,args) when arity > 0 -> 
	     exp loc fv (Typed.Op (op,arity - 1,args @ [e2]))
	 | _ ->
	     exp loc fv (Typed.Apply (e1,e2)))
  | Abstraction a -> abstraction env loc a
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  | (Integer _ | Char _ | Atom _ | Const _ ) as c -> 
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      exp loc Fv.empty (Typed.Cst (const env loc c))
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  | Pair (e1,e2) ->
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      let (fv1,e1) = expr env loc e1 and (fv2,e2) = expr env loc e2 in
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      exp loc (Fv.cup fv1 fv2) (Typed.Pair (e1,e2))
  | Xml (e1,e2) ->
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      let (fv1,e1) = expr env loc e1 and (fv2,e2) = expr env loc e2 in
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      let n = if env.keep_ns then Some env.ns else None in
      exp loc (Fv.cup fv1 fv2) (Typed.Xml (e1,e2,n))
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  | Dot _ as e ->
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      dot loc env e []
  | TyArgs (Dot _ as e, args) ->
      dot loc env e args
  | TyArgs _ ->
      error loc "Only OCaml external can have type arguments"
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  | RemoveField (e,l) ->
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      let (fv,e) = expr env loc e in
      exp loc fv (Typed.RemoveField (e,parse_label env loc l))
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  | RecordLitt r -> 
      let fv = ref Fv.empty in
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      let r = parse_record env loc
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		(fun e -> 
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		   let (fv2,e) = expr env loc e 
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		   in fv := Fv.cup !fv fv2; e)
		r in
      exp loc !fv (Typed.RecordLitt r)
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  | String (i,j,s,e) ->
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      let (fv,e) = expr env loc e in
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      exp loc fv (Typed.String (i,j,s,e))
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  | Match (e,b) -> 
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      let (fv1,e) = expr env loc e
      and (fv2,b) = branches env b in
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      exp loc (Fv.cup fv1 fv2) (Typed.Match (e, b))
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  | Map (e,b) ->
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      let (fv1,e) = expr env loc e
      and (fv2,b) = branches env b in
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      exp loc (Fv.cup fv1 fv2) (Typed.Map (e, b))
  | Transform (e,b) ->
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      let (fv1,e) = expr env loc e
      and (fv2,b) = branches env b in
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      exp loc (Fv.cup fv1 fv2) (Typed.Transform (e, b))
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  | Xtrans (e,b) ->
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      let (fv1,e) = expr env loc e
      and (fv2,b) = branches env b in
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      exp loc (Fv.cup fv1 fv2) (Typed.Xtrans (e, b))
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  | Validate (e,ids) ->
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      let (fv,e) = expr env loc e in
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      let (t,v) = find_global_schema_component env loc ids  in
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      exp loc fv (Typed.Validate (e, t, v))
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  | SelectFW (e,from,where) ->
      select_from_where env loc e from where
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  | Try (e,b) ->
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      let (fv1,e) = expr env loc e
      and (fv2,b) = branches env b in
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      exp loc (Fv.cup fv1 fv2) (Typed.Try (e, b))
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  | NamespaceIn (pr,ns,e) ->
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      let env = type_ns env loc pr ns in
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      expr env loc e
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  | KeepNsIn (k,e) ->
      expr (type_keep_ns env k) loc e
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  | Ref (e,t) ->
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      let (fv,e) = expr env loc e and t = typ env t in
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      exp loc fv (Typed.Ref (e,t))
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and if_then_else loc cond yes no =
  let b = {
    Typed.br_typ = Types.empty;
    Typed.br_branches = [
      { Typed.br_loc = yes.Typed.exp_loc;
	Typed.br_used = false;
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	Typed.br_ghost = false;
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	Typed.br_vars_empty = Fv.empty;
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	Typed.br_vars_poly = Fv.empty;
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	Typed.br_pat = pat_true;
	Typed.br_body = yes };
      { Typed.br_loc = no.Typed.exp_loc;
	Typed.br_used = false;
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	Typed.br_ghost = false;
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	Typed.br_vars_empty = Fv.empty;
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	Typed.br_vars_poly = Fv.empty;
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	Typed.br_pat = pat_false;
	Typed.br_body = no } ];
    Typed.br_accept = Builtin_defs.bool;
  } in
  exp' loc (Typed.Match (cond,b))
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and dot loc env0 e args =
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  let dot_access loc (fv,e) l =
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    exp loc fv (Typed.Dot (e,parse_label env0 loc l)) in

  let no_args () =
    if args <> [] then
      error loc "Only OCaml externals can have type arguments" in
  let rec aux loc = function
    | LocatedExpr (loc,e) -> aux loc e
    | Dot (e,id) ->
	(match aux loc e with
	   | `Val e -> `Val (dot_access loc e id)
	   | `Comp c -> `Comp (navig loc env0 c id))
    | Var id -> 
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	(match find_id_comp env0 env0 loc id with
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	   | Val _ -> `Val (var env0 loc id)
	   | c -> `Comp (env0,c))
    | e -> `Val (expr env0 loc e)
  in
  match aux loc e with
    | `Val e -> no_args (); e
    | `Comp (_,EVal (cu,id,t)) -> 
	no_args (); exp loc Fv.empty (Typed.ExtVar (cu,id,t))
    | `Comp (_,EOCamlComponent s) -> extern loc env0 s args
    | _ -> error loc "This dot notation does not refer to a value"
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and extern loc env s args = 
  let args = List.map (typ env) args in
  try
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    let (i,t) =
      if !has_static_external s then
	(`Builtin s, Externals.typ s args)
      else
	let (i,t) = Externals.resolve s args in
	(`Ext i, t) in
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    exp loc Fv.empty (Typed.External (t,i))
  with exn -> raise_loc loc exn
    
and var env loc s =
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  let id = ident env loc s in
  match is_op env id with
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    | Some (s,arity) -> 
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	let e = match s with 
	  | "print_xml" | "print_xml_utf8" ->
	      Typed.NsTable (env.ns,Typed.Op (s, arity, []))
	  | "load_xml" when env.keep_ns ->
	      Typed.Op ("!load_xml",arity,[])
	  | _ -> Typed.Op (s, arity, []) 
	in
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	exp loc Fv.empty e
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    | None ->
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	try match Env.find id env.ids with
	  | Val _ -> exp loc (Fv.singleton id) (Typed.Var id)
	  | EVal (cu,id,t) -> exp loc Fv.empty (Typed.ExtVar (cu,id,t))
	  | _ ->  error loc "This identifier does not refer to a value"
	with Not_found -> error loc "Unbound identifier"

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and abstraction env loc a =
  let iface = 
    List.map 
      (fun (t1,t2) -> (typ env t1, typ env t2)) a.fun_iface in
  let t = 
    List.fold_left 
      (fun accu (t1,t2) -> Types.cap accu (Types.arrow t1 t2)) 
      Types.any iface in
  let iface = 
    List.map 
      (fun (t1,t2) -> (Types.descr t1, Types.descr t2)) 
      iface in
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  let fun_name = fun_name env a in
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  let env' = 
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    match fun_name with 
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      | None -> env
      | Some f -> enter_values_dummy [ f ] env
  in
  let (fv0,body) = branches env' a.fun_body in
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  let fv = match fun_name with
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    | None -> fv0
    | Some f -> Fv.remove f fv0 in
  let e = Typed.Abstraction 
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	    { Typed.fun_name = fun_name;
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	      Typed.fun_iface = iface;
	      Typed.fun_body = body;
	      Typed.fun_typ = t;
	      Typed.fun_fv = fv
	    } in
  exp loc fv e
    
and branches env b = 
  let fv = ref Fv.empty in
  let accept = ref Types.empty in
  let branch (p,e) = 
    let cur_br = !cur_branch in
    cur_branch := [];
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    let ploc = p.loc in
    let p = pat env p in
    let fvp = Patterns.fv p in
    let (fv2,e) = expr (enter_values_dummy fvp env) noloc e in
    let br_loc = merge_loc ploc e.Typed.exp_loc in
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    (match Fv.pick (Fv.diff fvp fv2) with
       | None -> ()
       | Some x ->
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	   let x = Ident.to_string x in
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	   warning br_loc 
	     ("The capture variable " ^ x ^ 
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	      " is declared in the pattern but not used in the body of this branch." ^
            " It might be a misspelled or undeclared type or name (if it isn't, use _ instead)."));
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    let fv2 = Fv.diff fv2 fvp in
    fv := Fv.cup !fv fv2;
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    accept := Types.cup !accept (Types.descr (Patterns.accept p));
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    let ghost = br_loc == noloc in
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    let br = 
      { 
	Typed.br_loc = br_loc;
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	Typed.br_used = ghost;
	Typed.br_ghost = ghost;
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	Typed.br_vars_empty = fvp;
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	Typed.br_vars_poly = Fv.empty;
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	Typed.br_pat = p;
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	Typed.br_body = e } in
    cur_branch := Branch (br, !cur_branch) :: cur_br;
    br in
  let b = List.map branch b in
  (!fv, 
   { 
     Typed.br_typ = Types.empty; 
     Typed.br_branches = b; 
     Typed.br_accept = !accept;
   } 
  )
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and select_from_where env loc e from where =
  let env = ref env in
  let all_fv = ref Fv.empty in
  let bound_fv = ref Fv.empty in
  let clause (p,e) =
    let ploc = p.loc in
    let p = pat !env p in
    let fvp = Patterns.fv p in
    let (fv2,e) = expr !env noloc e in
    env := enter_values_dummy fvp !env;
    all_fv := Fv.cup (Fv.diff fv2 !bound_fv) !all_fv;
    bound_fv := Fv.cup fvp !bound_fv;
    (ploc,p,fvp,e) in
  let from = List.map clause from in
  let where = List.map (expr !env noloc) where in

  let put_cond rest (fv,cond) = 
    all_fv := Fv.cup (Fv.diff fv !bound_fv) !all_fv;
    if_then_else loc cond rest exp_nil in
  let aux (ploc,p,fvp,e) (where,rest) = 
    (* Put here the conditions that depends on variables in fvp *)
    let (above,here) = List.partition (fun (v,_) -> Fv.disjoint v fvp) where in
    (* if cond then ... else [] *)
    let rest = List.fold_left put_cond rest here in
    (* transform e with p -> ... *)
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    let br = { Typed.br_loc = ploc;
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	  Typed.br_used = false;
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	  Typed.br_ghost = false;
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	  Typed.br_vars_empty = fvp;
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        Typed.br_vars_poly = Fv.empty;
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	  Typed.br_pat = p;
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	  Typed.br_body = rest } in
    cur_branch := [ Branch (br, !cur_branch) ];
    let b = {
      Typed.br_typ = Types.empty;
      Typed.br_branches = [ br ];
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      Typed.br_accept = Types.descr (Patterns.accept p);
    } in
    let br_loc = merge_loc ploc e.Typed.exp_loc in
    (above,exp' br_loc (Typed.Transform (e, b)))
  in
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  let cur_br = !cur_branch in
  cur_branch := [];
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  let (fv,e) = expr !env noloc (Pair(e,cst_nil)) in
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  cur_branch := !cur_branch @ cur_br;
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  let (where,rest) = List.fold_right aux from (where,e) in
  (* The remaining conditions are constant. Gives a warning for that. *)
  (match where with
     | (_,e) :: _ ->
	 warning e.Typed.exp_loc
	   "This 'where' condition does not depend on any captured variable"
     | _ -> ());
  let rest = List.fold_left put_cond rest where in
  (Fv.cup !all_fv (Fv.diff fv !bound_fv)), rest

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let expr env e = snd (expr env noloc e)
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let let_decl env p e =
  { Typed.let_pat = pat env p;
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    Typed.let_body = expr env e }
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(* Hide global "typing/parsing" environment *)

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(* III. Type-checks *)

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open Typed

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let localize loc f x =
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  try f x with 
  | (Error _ | Constraint (_,_)) as exn -> 
      raise (Cduce_loc.Location (loc,`Full,exn))
  | Warning (s,t) -> warning loc s; t
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let require loc t s = 
  if not (Types.subtype t s) then raise_loc loc (Constraint (t, s))
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let verify loc t s = 
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  require loc t s; t

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let verify_noloc t s =
  if not (Types.subtype t s) then raise (Constraint (t, s));
  t

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let check_str loc ofs t s = 
  if not (Types.subtype t s) then raise_loc_str loc ofs (Constraint (t, s));
  t

let should_have loc constr s = 
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  raise_loc loc (ShouldHave (constr,s))

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let should_have_str loc ofs constr s = 
  raise_loc_str loc ofs (ShouldHave (constr,s))

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let flatten arg constr precise =
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  let constr' = Sequence.star 
		  (Sequence.approx (Types.cap Sequence.any constr)) in
  let sconstr' = Sequence.star constr' in
  let exact = Types.subtype constr' constr in
  if exact then
    let t = arg sconstr' precise in
    if precise then Sequence.flatten t else constr
  else
    let t = arg sconstr' true in
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    verify_noloc (Sequence.flatten t) constr
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let rec type_check env e constr precise = 
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  let (ed,d) = type_check' e.exp_loc env e.exp_descr constr precise in
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  let d = if precise then d else constr in
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  e.exp_typ <- Types.cup e.exp_typ d;
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  e.exp_descr <- ed;
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  d

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and type_check' loc env ed constr precise = match ed with
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  | Forget (e,t) ->
      let t = Types.descr t in
      ignore (type_check env e t false);
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      (ed,verify loc t constr)
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  | Subst (e, sigma) -> (ed,type_check env e constr precise)
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  | Check (t0,e,t) ->
      let te = type_check env e Types.any true in
      t0 := Types.cup !t0 te;
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      (ed,verify loc (Types.cap te (Types.descr t)) constr)
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  | Abstraction a ->
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      let t =
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        try Types.Arrow.check_strenghten a.fun_typ constr 
        with Not_found -> 
          should_have loc constr
            "but the interface of the abstraction is not compatible"
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      in
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      let env = match a.fun_name with
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        | None -> env
        | Some f -> enter_value f a.fun_typ env 
      in
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      (* update \delta with all variables in t1 -> t2 *)

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      (* I check the body with all possible t1 -> t2 types *)
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      List.iter (fun (t1,t2) ->
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        let acc = a.fun_body.br_accept in
        if not (Types.subtype t1 acc) then
	    raise_loc loc (NonExhaustive (Types.diff t1 acc));
        let t = type_check_branches loc env t1 a.fun_body t2 false in
        let sigma = Types.abstr t t2 in (* H_j *)
        List.iter (fun br ->
          br.br_body.exp_descr <- Subst(br.br_body,sigma); 
        ) a.fun_body.br_branches
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	) a.fun_iface;
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      (ed,t)
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  | Match (e,b) ->
      let t = type_check env e b.br_accept true in
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      (ed,type_check_branches loc env t b constr precise)
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  | Try (e,b) ->
      let te = type_check env e constr precise in
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      let tb = type_check_branches loc env Types.any b constr precise in
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      (ed,Types.cup te tb)
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  | Pair (e1,e2) ->
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      (ed,type_check_pair loc env e1 e2 constr precise)
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  | Xml (e1,e2,_) ->
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      (ed,type_check_pair ~kind:`XML loc env e1 e2 constr precise)
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  | RecordLitt r ->
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      (ed,type_record loc env r constr precise)
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  | Map (e,b) ->
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      (ed,type_map loc env false e b constr precise)
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  | Transform (e,b) ->
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      (ed,localize loc (flatten (type_map loc env true e b) constr) precise)
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  | Apply (e1,e2) ->
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      let t1_t = type_check env e1 Types.Arrow.any true in
      let t1 = Types.Arrow.get t1_t in
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      let dom = Types.Arrow.domain t1 in
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      let res =
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        if Types.Arrow.need_arg t1 then
          let t2 = type_check env e2 dom true in
          Types.Arrow.apply t1 t2
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        else begin
          ignore (type_check env e2 dom false); 
          Types.Arrow.apply_noarg t1
        end
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      in
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      (ed,verify loc res constr)
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  | Var s -> 
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      (ed,verify loc (find_value s env) constr)
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  | TVar s -> 
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      (ed,verify loc (find_value s env) constr)
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  | ExtVar (cu,s,t) ->
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      (ed,verify loc t constr)
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  | Cst c -> 
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      (ed,verify loc (Types.constant c) constr)
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  | String (i,j,s,e) ->
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      (ed,type_check_string loc env 0 s i j e constr precise)
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  | Dot (e,l) ->
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      let expect_rec = Types.record l (Types.cons constr) in
      let expect_elt = 
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        Types.xml 
          Types.any_node 
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          (Types.cons (Types.times (Types.cons expect_rec) Types.any_node)) 
      in
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      let t = type_check env e (Types.cup expect_rec expect_elt) precise in
      let t_elt =
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