TFL/dcterm.ML

simplified proof of cont_Iwhen3

(*  Title:      TFL/dcterm.ML
    ID:         $Id$
    Author:     Konrad Slind, Cambridge University Computer Laboratory
    Copyright   1997  University of Cambridge
*)

(*---------------------------------------------------------------------------
 * Derived efficient cterm destructors.
 *---------------------------------------------------------------------------*)

signature DCTERM =
sig
  val dest_comb: cterm -> cterm * cterm
  val dest_abs: string option -> cterm -> cterm * cterm
  val capply: cterm -> cterm -> cterm
  val cabs: cterm -> cterm -> cterm
  val mk_conj: cterm * cterm -> cterm
  val mk_disj: cterm * cterm -> cterm
  val mk_exists: cterm * cterm -> cterm
  val dest_conj: cterm -> cterm * cterm
  val dest_const: cterm -> {Name: string, Ty: typ}
  val dest_disj: cterm -> cterm * cterm
  val dest_eq: cterm -> cterm * cterm
  val dest_exists: cterm -> cterm * cterm
  val dest_forall: cterm -> cterm * cterm
  val dest_imp: cterm -> cterm * cterm
  val dest_let: cterm -> cterm * cterm
  val dest_neg: cterm -> cterm
  val dest_pair: cterm -> cterm * cterm
  val dest_var: cterm -> {Name:string, Ty:typ}
  val is_conj: cterm -> bool
  val is_cons: cterm -> bool
  val is_disj: cterm -> bool
  val is_eq: cterm -> bool
  val is_exists: cterm -> bool
  val is_forall: cterm -> bool
  val is_imp: cterm -> bool
  val is_let: cterm -> bool
  val is_neg: cterm -> bool
  val is_pair: cterm -> bool
  val list_mk_disj: cterm list -> cterm
  val strip_abs: cterm -> cterm list * cterm
  val strip_comb: cterm -> cterm * cterm list
  val strip_disj: cterm -> cterm list
  val strip_exists: cterm -> cterm list * cterm
  val strip_forall: cterm -> cterm list * cterm
  val strip_imp: cterm -> cterm list * cterm
  val drop_prop: cterm -> cterm
  val mk_prop: cterm -> cterm
end;

structure Dcterm: DCTERM =
struct

structure U = Utils;

fun ERR func mesg = U.ERR {module = "Dcterm", func = func, mesg = mesg};


fun dest_comb t = Thm.dest_comb t
  handle CTERM msg => raise ERR "dest_comb" msg;

fun dest_abs a t = Thm.dest_abs a t
  handle CTERM msg => raise ERR "dest_abs" msg;

fun capply t u = Thm.capply t u
  handle CTERM msg => raise ERR "capply" msg;

fun cabs a t = Thm.cabs a t
  handle CTERM msg => raise ERR "cabs" msg;


(*---------------------------------------------------------------------------
 * Some simple constructor functions.
 *---------------------------------------------------------------------------*)

val mk_hol_const = Thm.cterm_of (Theory.sign_of HOL.thy) o Const;

fun mk_exists (r as (Bvar, Body)) =
  let val ty = #T(rep_cterm Bvar)
      val c = mk_hol_const("Ex", (ty --> HOLogic.boolT) --> HOLogic.boolT)
  in capply c (uncurry cabs r) end;


local val c = mk_hol_const("op &", HOLogic.boolT --> HOLogic.boolT --> HOLogic.boolT)
in fun mk_conj(conj1,conj2) = capply (capply c conj1) conj2
end;

local val c = mk_hol_const("op |", HOLogic.boolT --> HOLogic.boolT --> HOLogic.boolT)
in fun mk_disj(disj1,disj2) = capply (capply c disj1) disj2
end;


(*---------------------------------------------------------------------------
 * The primitives.
 *---------------------------------------------------------------------------*)
fun dest_const ctm =
   (case #t(rep_cterm ctm)
      of Const(s,ty) => {Name = s, Ty = ty}
       | _ => raise ERR "dest_const" "not a constant");

fun dest_var ctm =
   (case #t(rep_cterm ctm)
      of Var((s,i),ty) => {Name=s, Ty=ty}
       | Free(s,ty)    => {Name=s, Ty=ty}
       |             _ => raise ERR "dest_var" "not a variable");


(*---------------------------------------------------------------------------
 * Derived destructor operations.
 *---------------------------------------------------------------------------*)

fun dest_monop expected tm =
 let
   fun err () = raise ERR "dest_monop" ("Not a(n) " ^ quote expected);
   val (c, N) = dest_comb tm handle U.ERR _ => err ();
   val name = #Name (dest_const c handle U.ERR _ => err ());
 in if name = expected then N else err () end;

fun dest_binop expected tm =
 let
   fun err () = raise ERR "dest_binop" ("Not a(n) " ^ quote expected);
   val (M, N) = dest_comb tm handle U.ERR _ => err ()
 in (dest_monop expected M, N) handle U.ERR _ => err () end;

fun dest_binder expected tm =
  dest_abs NONE (dest_monop expected tm)
  handle U.ERR _ => raise ERR "dest_binder" ("Not a(n) " ^ quote expected);


val dest_neg    = dest_monop "not"
val dest_pair   = dest_binop "Pair";
val dest_eq     = dest_binop "op ="
val dest_imp    = dest_binop "op -->"
val dest_conj   = dest_binop "op &"
val dest_disj   = dest_binop "op |"
val dest_cons   = dest_binop "Cons"
val dest_let    = Library.swap o dest_binop "Let";
val dest_select = dest_binder "Hilbert_Choice.Eps"
val dest_exists = dest_binder "Ex"
val dest_forall = dest_binder "All"

(* Query routines *)

val is_eq     = can dest_eq
val is_imp    = can dest_imp
val is_select = can dest_select
val is_forall = can dest_forall
val is_exists = can dest_exists
val is_neg    = can dest_neg
val is_conj   = can dest_conj
val is_disj   = can dest_disj
val is_pair   = can dest_pair
val is_let    = can dest_let
val is_cons   = can dest_cons


(*---------------------------------------------------------------------------
 * Iterated creation.
 *---------------------------------------------------------------------------*)
val list_mk_disj = U.end_itlist (fn d1 => fn tm => mk_disj (d1, tm));

(*---------------------------------------------------------------------------
 * Iterated destruction. (To the "right" in a term.)
 *---------------------------------------------------------------------------*)
fun strip break tm =
  let fun dest (p as (ctm,accum)) =
        let val (M,N) = break ctm
        in dest (N, M::accum)
        end handle U.ERR _ => p
  in dest (tm,[])
  end;

fun rev2swap (x,l) = (rev l, x);

val strip_comb   = strip (Library.swap o dest_comb)  (* Goes to the "left" *)
val strip_imp    = rev2swap o strip dest_imp
val strip_abs    = rev2swap o strip (dest_abs NONE)
val strip_forall = rev2swap o strip dest_forall
val strip_exists = rev2swap o strip dest_exists

val strip_disj   = rev o (op::) o strip dest_disj


(*---------------------------------------------------------------------------
 * Going into and out of prop
 *---------------------------------------------------------------------------*)

fun mk_prop ctm =
  let val {t, sign, ...} = Thm.rep_cterm ctm in
    if can HOLogic.dest_Trueprop t then ctm
    else Thm.cterm_of sign (HOLogic.mk_Trueprop t)
  end
  handle TYPE (msg, _, _) => raise ERR "mk_prop" msg
    | TERM (msg, _) => raise ERR "mk_prop" msg;

fun drop_prop ctm = dest_monop "Trueprop" ctm handle U.ERR _ => ctm;


end;