(* $Id$ *)
(* Reification for the autimatically generated oracle for Presburger arithmetic
in HOL/ex/Reflected_Presburger.thy
Author : Amine Chaieb
*)
structure Coopereif =
struct
open GeneratedCooper;
fun i_of_term vs t =
case t of
Free(xn,xT) => (case AList.lookup (op aconv) vs t of
NONE => error "Variable not found in the list!!"
| SOME n => Bound n)
| @{term "0::int"} => C 0
| @{term "1::int"} => C 1
| Term.Bound i => Bound (nat i)
| Const(@{const_name "HOL.uminus"},_)$t' => Neg (i_of_term vs t')
| Const(@{const_name "HOL.plus"},_)$t1$t2 => Add (i_of_term vs t1,i_of_term vs t2)
| Const(@{const_name "HOL.minus"},_)$t1$t2 => Sub (i_of_term vs t1,i_of_term vs t2)
| Const(@{const_name "HOL.times"},_)$t1$t2 =>
(Mul (HOLogic.dest_number t1 |> snd,i_of_term vs t2)
handle TERM _ =>
(Mul (HOLogic.dest_number t2 |> snd,i_of_term vs t1)
handle TERM _ => error "i_of_term: Unsupported kind of multiplication"))
| _ => (C (HOLogic.dest_number t |> snd)
handle TERM _ => error "i_of_term: unknown term");
fun qf_of_term ps vs t =
case t of
Const("True",_) => T
| Const("False",_) => F
| Const(@{const_name "Orderings.less"},_)$t1$t2 => Lt (Sub (i_of_term vs t1,i_of_term vs t2))
| Const(@{const_name "Orderings.less_eq"},_)$t1$t2 => Le (Sub(i_of_term vs t1,i_of_term vs t2))
| Const(@{const_name "Divides.dvd"},_)$t1$t2 =>
(Dvd(HOLogic.dest_number t1 |> snd, i_of_term vs t2) handle _ => error "qf_of_term: unsupported dvd")
| @{term "op = :: int => _"}$t1$t2 => Eq (Sub (i_of_term vs t1,i_of_term vs t2))
| @{term "op = :: bool => _ "}$t1$t2 => Iff(qf_of_term ps vs t1,qf_of_term ps vs t2)
| Const("op &",_)$t1$t2 => And(qf_of_term ps vs t1,qf_of_term ps vs t2)
| Const("op |",_)$t1$t2 => Or(qf_of_term ps vs t1,qf_of_term ps vs t2)
| Const("op -->",_)$t1$t2 => Imp(qf_of_term ps vs t1,qf_of_term ps vs t2)
| Const("Not",_)$t' => NOT(qf_of_term ps vs t')
| Const("Ex",_)$Abs(xn,xT,p) =>
let val (xn',p') = variant_abs (xn,xT,p)
val vs' = (Free (xn',xT), nat 0) :: (map (fn(v,n) => (v,1 + n)) vs)
in E (qf_of_term ps vs' p')
end
| Const("All",_)$Abs(xn,xT,p) =>
let val (xn',p') = variant_abs (xn,xT,p)
val vs' = (Free (xn',xT), nat 0) :: (map (fn(v,n) => (v,1 + n)) vs)
in A (qf_of_term ps vs' p')
end
| _ =>(case AList.lookup (op aconv) ps t of
NONE => error "qf_of_term ps : unknown term!"
| SOME n => Closed n);
local
val ops = [@{term "op &"}, @{term "op |"}, @{term "op -->"}, @{term "op = :: bool => _"},
@{term "op = :: int => _"}, @{term "op < :: int => _"},
@{term "op <= :: int => _"}, @{term "Not"}, @{term "All:: (int => _) => _"},
@{term "Ex:: (int => _) => _"}, @{term "True"}, @{term "False"}]
fun ty t = Bool.not (fastype_of t = HOLogic.boolT)
in
fun term_bools acc t =
case t of
(l as f $ a) $ b => if ty t orelse f mem ops then term_bools (term_bools acc l)b
else insert (op aconv) t acc
| f $ a => if ty t orelse f mem ops then term_bools (term_bools acc f) a
else insert (op aconv) t acc
| Abs p => term_bools acc (snd (variant_abs p))
| _ => if ty t orelse t mem ops then acc else insert (op aconv) t acc
end;
fun start_vs t =
let
val fs = term_frees t
val ps = term_bools [] t
in (fs ~~ (map nat (0 upto (length fs - 1))),
ps ~~ (map nat (0 upto (length ps - 1))))
end ;
val iT = HOLogic.intT;
val bT = HOLogic.boolT;
fun myassoc2 l v =
case l of
[] => NONE
| (x,v')::xs => if v = v' then SOME x
else myassoc2 xs v;
fun term_of_i vs t =
case t of
C i => HOLogic.mk_number HOLogic.intT i
| Bound n => valOf (myassoc2 vs n)
| Neg t' => @{term "uminus :: int => _"}$(term_of_i vs t')
| Add(t1,t2) => @{term "op +:: int => _"}$ (term_of_i vs t1)$(term_of_i vs t2)
| Sub(t1,t2) => Const(@{const_name "HOL.minus"},[iT,iT] ---> iT)$
(term_of_i vs t1)$(term_of_i vs t2)
| Mul(i,t2) => Const(@{const_name "HOL.times"},[iT,iT] ---> iT)$
(HOLogic.mk_number HOLogic.intT i)$(term_of_i vs t2)
| CX(i,t')=> term_of_i vs (Add(Mul (i,Bound (nat 0)),t'));
fun term_of_qf ps vs t =
case t of
T => HOLogic.true_const
| F => HOLogic.false_const
| Lt t' => @{term "op < :: int => _ "}$ term_of_i vs t'$ @{term "0::int"}
| Le t' => @{term "op <= :: int => _ "}$ term_of_i vs t' $ @{term "0::int"}
| Gt t' => @{term "op < :: int => _ "}$ @{term "0::int"}$ term_of_i vs t'
| Ge t' => @{term "op <= :: int => _ "}$ @{term "0::int"}$ term_of_i vs t'
| Eq t' => @{term "op = :: int => _ "}$ term_of_i vs t'$ @{term "0::int"}
| NEq t' => term_of_qf ps vs (NOT(Eq t'))
| Dvd(i,t') => @{term "op dvd :: int => _ "}$
(HOLogic.mk_number HOLogic.intT i)$(term_of_i vs t')
| NDvd(i,t')=> term_of_qf ps vs (NOT(Dvd(i,t')))
| NOT t' => HOLogic.Not$(term_of_qf ps vs t')
| And(t1,t2) => HOLogic.conj$(term_of_qf ps vs t1)$(term_of_qf ps vs t2)
| Or(t1,t2) => HOLogic.disj$(term_of_qf ps vs t1)$(term_of_qf ps vs t2)
| Imp(t1,t2) => HOLogic.imp$(term_of_qf ps vs t1)$(term_of_qf ps vs t2)
| Iff(t1,t2) => (HOLogic.eq_const bT)$(term_of_qf ps vs t1)$ (term_of_qf ps vs t2)
| Closed n => valOf (myassoc2 ps n)
| NClosed n => term_of_qf ps vs (NOT (Closed n))
| _ => error "If this is raised, Isabelle/HOL or generate_code is inconsistent!";
(* The oracle *)
fun cooper_oracle thy t =
let val (vs,ps) = start_vs t
in HOLogic.mk_Trueprop (HOLogic.mk_eq (t, term_of_qf ps vs (pa (qf_of_term ps vs t))))
end;
end;