New content level representations for LetRec, Inductive and CoInductive.

[helm.git] / helm / software / components / acic_content / cicNotationPp.ml

(* Copyright (C) 2004-2005, HELM Team.
 * 
 * This file is part of HELM, an Hypertextual, Electronic
 * Library of Mathematics, developed at the Computer Science
 * Department, University of Bologna, Italy.
 * 
 * HELM is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 * 
 * HELM is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with HELM; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
 * MA  02111-1307, USA.
 * 
 * For details, see the HELM World-Wide-Web page,
 * http://helm.cs.unibo.it/
 *)

(* $Id$ *)

open Printf

module Ast = CicNotationPt
module Env = CicNotationEnv

  (* when set to true debugging information, not in sync with input syntax, will
   * be added to the output of pp_term.
   * set to false if you need, for example, cut and paste from matitac output to
   * matitatop *)
let debug_printing = true

let pp_binder = function
  | `Lambda -> "lambda"
  | `Pi -> "Pi"
  | `Exists -> "exists"
  | `Forall -> "forall"

let pp_literal =
  if debug_printing then
    (function (* debugging version *)
      | `Symbol s -> sprintf "symbol(%s)" s
      | `Keyword s -> sprintf "keyword(%s)" s
      | `Number s -> sprintf "number(%s)" s)
  else
    (function
      | `Symbol s
      | `Keyword s
      | `Number s -> s)

let pp_assoc =
  function
  | Gramext.NonA -> "NonA"
  | Gramext.LeftA -> "LeftA"
  | Gramext.RightA -> "RightA"

let pp_pos =
  function
(*      `None -> "`None" *)
    | `Left -> "`Left"
    | `Right -> "`Right"
    | `Inner -> "`Inner"

let pp_attribute =
  function
  | `IdRef id -> sprintf "x(%s)" id
  | `XmlAttrs attrs ->
      sprintf "X(%s)"
        (String.concat ";"
          (List.map (fun (_, n, v) -> sprintf "%s=%s" n v) attrs))
  | `Level (prec, assoc) -> sprintf "L(%d%s)" prec (pp_assoc assoc)
  | `Raw _ -> "R"
  | `Loc _ -> "@"
  | `ChildPos p -> sprintf "P(%s)" (pp_pos p)

let rec pp_term ?(pp_parens = true) t =
  let t_pp =
    match t with
    | Ast.AttributedTerm (attr, term) when debug_printing ->
        sprintf "%s[%s]" (pp_attribute attr) (pp_term ~pp_parens:false term)
    | Ast.AttributedTerm (`Raw text, _) -> text
    | Ast.AttributedTerm (_, term) -> pp_term ~pp_parens:false term
    | Ast.Appl terms ->
        sprintf "%s" (String.concat " " (List.map pp_term terms))
    | Ast.Binder (`Forall, (Ast.Ident ("_", None), typ), body)
    | Ast.Binder (`Pi, (Ast.Ident ("_", None), typ), body) ->
        sprintf "%s \\to %s"
          (match typ with None -> "?" | Some typ -> pp_term typ)
          (pp_term ~pp_parens:true body)
    | Ast.Binder (kind, var, body) ->
        sprintf "\\%s %s.%s" (pp_binder kind) (pp_capture_variable var)
          (pp_term ~pp_parens:true body)
    | Ast.Case (term, indtype, typ, patterns) ->
        sprintf "match %s%s%s with %s"
          (pp_term term)
          (match indtype with
          | None -> ""
          | Some (ty, href_opt) ->
              sprintf " in %s%s" ty
              (match debug_printing, href_opt with
              | true, Some uri ->
                  sprintf "(i.e.%s)" (UriManager.string_of_uri uri)
              | _ -> ""))         
          (match typ with None -> "" | Some t -> sprintf " return %s" (pp_term t))          
          (pp_patterns patterns)
    | Ast.Cast (t1, t2) -> sprintf "(%s: %s)" (pp_term ~pp_parens:true t1) (pp_term ~pp_parens:true t2)
    | Ast.LetIn (var, t1, t2) ->
        sprintf "let %s \\def %s in %s" (pp_capture_variable var) (pp_term ~pp_parens:true t1)
          (pp_term ~pp_parens:true t2)
    | Ast.LetRec (kind, definitions, term) ->
        let rec get_guard i = function
           | []                   -> (*assert false*) Ast.Implicit
           | [term, _] when i = 1 -> term
           | _ :: tl              -> get_guard (pred i) tl
        in
        let map (params, (id,typ), body, i) =
         let typ =
          match typ with
             None -> Ast.Implicit
           | Some typ -> typ
         in
           sprintf "%s %s on %s: %s \\def %s" 
              (pp_term ~pp_parens:false term)
              (String.concat " " (List.map pp_capture_variable params))
              (pp_term ~pp_parens:false (get_guard i params))
              (pp_term typ) (pp_term body)
        in
        sprintf "let %s %s in %s"
          (match kind with `Inductive -> "rec" | `CoInductive -> "corec")
          (String.concat " and " (List.map map definitions))
          (pp_term term)
    | Ast.Ident (name, Some []) | Ast.Ident (name, None)
    | Ast.Uri (name, Some []) | Ast.Uri (name, None) ->
        name
    | Ast.Ident (name, Some substs)
    | Ast.Uri (name, Some substs) ->
        sprintf "%s \\subst [%s]" name (pp_substs substs)
    | Ast.Implicit -> "?"
    | Ast.Meta (index, substs) ->
        sprintf "%d[%s]" index
          (String.concat "; "
            (List.map (function None -> "_" | Some t -> pp_term t) substs))
    | Ast.Num (num, _) -> num
    | Ast.Sort `Set -> "Set"
    | Ast.Sort `Prop -> "Prop"
    | Ast.Sort (`Type _) -> "Type"
    | Ast.Sort `CProp -> "CProp"
    | Ast.Symbol (name, _) -> "'" ^ name

    | Ast.UserInput -> ""

    | Ast.Literal l -> pp_literal l
    | Ast.Layout l -> pp_layout l
    | Ast.Magic m -> pp_magic m
    | Ast.Variable v -> pp_variable v
  in
  match pp_parens, t with
    | false, _ 
    | true, Ast.Implicit
    | true, Ast.Sort _
    | true, Ast.Ident (_, Some []) 
    | true, Ast.Ident (_, None)    -> t_pp
    | _                            -> sprintf "(%s)" t_pp

and pp_subst (name, term) = sprintf "%s \\Assign %s" name (pp_term term)
and pp_substs substs = String.concat "; " (List.map pp_subst substs)

and pp_pattern ((head, href, vars), term) =
  let head_pp =
    head ^
    (match debug_printing, href with
    | true, Some uri -> sprintf "(i.e.%s)" (UriManager.string_of_uri uri)
    | _ -> "")
  in
  sprintf "%s \\Rightarrow %s"
    (match vars with
    | [] -> head_pp
    | _ ->
        sprintf "(%s %s)" head_pp
          (String.concat " " (List.map pp_capture_variable vars)))
    (pp_term term)

and pp_patterns patterns =
  sprintf "[%s]" (String.concat " | " (List.map pp_pattern patterns))

and pp_capture_variable = 
  function
  | term, None -> pp_term ~pp_parens:false term
  | term, Some typ -> "(" ^ pp_term ~pp_parens:false term ^ ": " ^ pp_term typ ^ ")"

and pp_box_spec (kind, spacing, indent) =
  let int_of_bool b = if b then 1 else 0 in
  let kind_string =
    match kind with
    Ast.H -> "H" | Ast.V -> "V" | Ast.HV -> "HV" | Ast.HOV -> "HOV"
  in
  sprintf "%sBOX%d%d" kind_string (int_of_bool spacing) (int_of_bool indent)

and pp_layout = function
  | Ast.Sub (t1, t2) -> sprintf "%s \\SUB %s" (pp_term t1) (pp_term t2)
  | Ast.Sup (t1, t2) -> sprintf "%s \\SUP %s" (pp_term t1) (pp_term t2)
  | Ast.Below (t1, t2) -> sprintf "%s \\BELOW %s" (pp_term t1) (pp_term t2)
  | Ast.Above (t1, t2) -> sprintf "%s \\ABOVE %s" (pp_term t1) (pp_term t2)
  | Ast.Over (t1, t2) -> sprintf "[%s \\OVER %s]" (pp_term t1) (pp_term t2)
  | Ast.Atop (t1, t2) -> sprintf "[%s \\ATOP %s]" (pp_term t1) (pp_term t2)
  | Ast.Frac (t1, t2) -> sprintf "\\FRAC %s %s" (pp_term t1) (pp_term t2)
  | Ast.Sqrt t -> sprintf "\\SQRT %s" (pp_term t)
  | Ast.Root (arg, index) ->
      sprintf "\\ROOT %s \\OF %s" (pp_term index) (pp_term arg)
  | Ast.Break -> "\\BREAK"
(*   | Space -> "\\SPACE" *)
  | Ast.Box (box_spec, terms) ->
      sprintf "\\%s [%s]" (pp_box_spec box_spec)
        (String.concat " " (List.map pp_term terms))
  | Ast.Group terms ->
      sprintf "\\GROUP [%s]" (String.concat " " (List.map pp_term terms))

and pp_magic = function
  | Ast.List0 (t, sep_opt) ->
      sprintf "list0 %s%s" (pp_term t) (pp_sep_opt sep_opt)
  | Ast.List1 (t, sep_opt) ->
      sprintf "list1 %s%s" (pp_term t) (pp_sep_opt sep_opt)
  | Ast.Opt t -> sprintf "opt %s" (pp_term t)
  | Ast.Fold (kind, p_base, names, p_rec) ->
      let acc = match names with acc :: _ -> acc | _ -> assert false in
      sprintf "fold %s %s rec %s %s"
        (pp_fold_kind kind) (pp_term p_base) acc (pp_term p_rec)
  | Ast.Default (p_some, p_none) ->
      sprintf "default %s %s" (pp_term p_some) (pp_term p_none)
  | Ast.If (p_test, p_true, p_false) ->
      sprintf "if %s then %s else %s"
        (pp_term p_test) (pp_term p_true) (pp_term p_false)
  | Ast.Fail -> "fail"

and pp_fold_kind = function
  | `Left -> "left"
  | `Right -> "right"

and pp_sep_opt = function
  | None -> ""
  | Some sep -> sprintf " sep %s" (pp_literal sep)

and pp_variable = function
  | Ast.NumVar s -> "number " ^ s
  | Ast.IdentVar s -> "ident " ^ s
  | Ast.TermVar s -> "term " ^ s
  | Ast.Ascription (t, n) -> assert false
  | Ast.FreshVar n -> "fresh " ^ n

let _pp_term = ref (pp_term ~pp_parens:false)
let pp_term t = !_pp_term t
let set_pp_term f = _pp_term := f

let pp_params = function
  | [] -> ""
  | params -> " " ^ String.concat " " (List.map pp_capture_variable params)
      
let pp_flavour = function
  | `Definition -> "definition"
  | `Fact -> "fact"
  | `Goal -> "goal"
  | `Lemma -> "lemma"
  | `Remark -> "remark"
  | `Theorem -> "theorem"
  | `Variant -> "variant"
  | `Axiom -> "axiom"

let pp_fields fields =
  (if fields <> [] then "\n" else "") ^ 
  String.concat ";\n" 
    (List.map 
      (fun (name,ty,coercion,arity) -> 
        " " ^ name ^ 
        if coercion then (":" ^ 
          if arity > 0 then string_of_int arity else "" ^ ">") else ": " ^
        pp_term ty) fields)
        
let pp_obj = function
 | Ast.Inductive (params, types) ->
    let pp_constructors constructors =
      String.concat "\n"
        (List.map (fun (name, typ) -> sprintf "| %s: %s" name (pp_term typ))
          constructors)
    in
    let pp_type (name, _, typ, constructors) =
      sprintf "\nwith %s: %s \\def\n%s" name (pp_term typ)
        (pp_constructors constructors)
    in
    (match types with
    | [] -> assert false
    | (name, inductive, typ, constructors) :: tl ->
        let fst_typ_pp =
          sprintf "%sinductive %s%s: %s \\def\n%s"
            (if inductive then "" else "co") name (pp_params params)
            (pp_term typ) (pp_constructors constructors)
        in
        fst_typ_pp ^ String.concat "" (List.map pp_type tl))
 | Ast.Theorem (flavour, name, typ, body) ->
    sprintf "%s %s:\n %s\n%s"
      (pp_flavour flavour)
      name
      (pp_term typ)
      (match body with
      | None -> ""
      | Some body -> "\\def\n " ^ pp_term body)
 | Ast.Record (params,name,ty,fields) ->
    "record " ^ name ^ " " ^ pp_params params ^ ": " ^ pp_term ty ^ 
    " \\def {" ^ pp_fields fields ^ "\n}"

let rec pp_value = function
  | Env.TermValue t -> sprintf "$%s$" (pp_term t)
  | Env.StringValue s -> sprintf "\"%s\"" s
  | Env.NumValue n -> n
  | Env.OptValue (Some v) -> "Some " ^ pp_value v
  | Env.OptValue None -> "None"
  | Env.ListValue l -> sprintf "[%s]" (String.concat "; " (List.map pp_value l))

let rec pp_value_type =
  function
  | Env.TermType -> "Term"
  | Env.StringType -> "String"
  | Env.NumType -> "Number"
  | Env.OptType t -> "Maybe " ^ pp_value_type t
  | Env.ListType l -> "List " ^ pp_value_type l

let pp_env env =
  String.concat "; "
    (List.map
      (fun (name, (ty, value)) ->
        sprintf "%s : %s = %s" name (pp_value_type ty) (pp_value value))
      env)

let rec pp_cic_appl_pattern = function
  | Ast.UriPattern uri -> UriManager.string_of_uri uri
  | Ast.VarPattern name -> name
  | Ast.ImplicitPattern -> "_"
  | Ast.ApplPattern aps ->
      sprintf "(%s)" (String.concat " " (List.map pp_cic_appl_pattern aps))