author | clasohm |
Fri, 24 Mar 1995 12:30:35 +0100 | |
changeset 972 | e61b058d58d2 |
parent 969 | b051e2fc2e34 |
child 1026 | f2dc38ed53ac |
permissions | -rw-r--r-- |
969 | 1 |
(* Title: HOL/ex/mt.thy |
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ID: $Id$ |
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Author: Jacob Frost, Cambridge University Computer Laboratory |
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Copyright 1993 University of Cambridge |
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Based upon the article |
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Robin Milner and Mads Tofte, |
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Co-induction in Relational Semantics, |
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Theoretical Computer Science 87 (1991), pages 209-220. |
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Written up as |
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Jacob Frost, A Case Study of Co_induction in Isabelle/HOL |
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Report 308, Computer Lab, University of Cambridge (1993). |
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*) |
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MT = Gfp + Sum + |
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types |
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Const |
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ExVar |
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Ex |
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TyConst |
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Ty |
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Clos |
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Val |
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ValEnv |
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TyEnv |
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arities |
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Const :: term |
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ExVar :: term |
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Ex :: term |
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TyConst :: term |
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Ty :: term |
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Clos :: term |
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Val :: term |
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ValEnv :: term |
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TyEnv :: term |
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consts |
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c_app :: "[Const, Const] => Const" |
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e_const :: "Const => Ex" |
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e_var :: "ExVar => Ex" |
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e_fn :: "[ExVar, Ex] => Ex" ("fn _ => _" [0,51] 1000) |
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e_fix :: "[ExVar, ExVar, Ex] => Ex" ("fix _ ( _ ) = _" [0,51,51] 1000) |
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e_app :: "[Ex, Ex] => Ex" ("_ @ _" [51,51] 1000) |
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e_const_fst :: "Ex => Const" |
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t_const :: "TyConst => Ty" |
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t_fun :: "[Ty, Ty] => Ty" ("_ -> _" [51,51] 1000) |
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v_const :: "Const => Val" |
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v_clos :: "Clos => Val" |
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ve_emp :: "ValEnv" |
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ve_owr :: "[ValEnv, ExVar, Val] => ValEnv" ("_ + { _ |-> _ }" [36,0,0] 50) |
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ve_dom :: "ValEnv => ExVar set" |
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ve_app :: "[ValEnv, ExVar] => Val" |
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clos_mk :: "[ExVar, Ex, ValEnv] => Clos" ("<| _ , _ , _ |>" [0,0,0] 1000) |
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te_emp :: "TyEnv" |
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te_owr :: "[TyEnv, ExVar, Ty] => TyEnv" ("_ + { _ |=> _ }" [36,0,0] 50) |
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te_app :: "[TyEnv, ExVar] => Ty" |
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te_dom :: "TyEnv => ExVar set" |
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eval_fun :: "((ValEnv * Ex) * Val) set => ((ValEnv * Ex) * Val) set" |
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eval_rel :: "((ValEnv * Ex) * Val) set" |
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eval :: "[ValEnv, Ex, Val] => bool" ("_ |- _ ---> _" [36,0,36] 50) |
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elab_fun :: "((TyEnv * Ex) * Ty) set => ((TyEnv * Ex) * Ty) set" |
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elab_rel :: "((TyEnv * Ex) * Ty) set" |
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elab :: "[TyEnv, Ex, Ty] => bool" ("_ |- _ ===> _" [36,0,36] 50) |
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isof :: "[Const, Ty] => bool" ("_ isof _" [36,36] 50) |
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isof_env :: "[ValEnv,TyEnv] => bool" ("_ isofenv _") |
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hasty_fun :: "(Val * Ty) set => (Val * Ty) set" |
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hasty_rel :: "(Val * Ty) set" |
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hasty :: "[Val, Ty] => bool" ("_ hasty _" [36,36] 50) |
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hasty_env :: "[ValEnv,TyEnv] => bool" ("_ hastyenv _ " [36,36] 35) |
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rules |
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(* |
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Expression constructors must be injective, distinct and it must be possible |
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to do induction over expressions. |
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*) |
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(* All the constructors are injective *) |
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e_const_inj "e_const(c1) = e_const(c2) ==> c1 = c2" |
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e_var_inj "e_var(ev1) = e_var(ev2) ==> ev1 = ev2" |
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e_fn_inj "fn ev1 => e1 = fn ev2 => e2 ==> ev1 = ev2 & e1 = e2" |
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e_fix_inj |
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" fix ev11e(v12) = e1 = fix ev21(ev22) = e2 ==> \ |
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\ ev11 = ev21 & ev12 = ev22 & e1 = e2 \ |
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\ " |
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e_app_inj "e11 @ e12 = e21 @ e22 ==> e11 = e21 & e12 = e22" |
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(* All constructors are distinct *) |
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e_disj_const_var "~e_const(c) = e_var(ev)" |
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e_disj_const_fn "~e_const(c) = fn ev => e" |
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e_disj_const_fix "~e_const(c) = fix ev1(ev2) = e" |
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e_disj_const_app "~e_const(c) = e1 @ e2" |
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e_disj_var_fn "~e_var(ev1) = fn ev2 => e" |
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e_disj_var_fix "~e_var(ev) = fix ev1(ev2) = e" |
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e_disj_var_app "~e_var(ev) = e1 @ e2" |
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e_disj_fn_fix "~fn ev1 => e1 = fix ev21(ev22) = e2" |
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e_disj_fn_app "~fn ev1 => e1 = e21 @ e22" |
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e_disj_fix_app "~fix ev11(ev12) = e1 = e21 @ e22" |
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(* Strong elimination, induction on expressions *) |
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e_ind |
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" [| !!ev. P(e_var(ev)); \ |
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\ !!c. P(e_const(c)); \ |
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\ !!ev e. P(e) ==> P(fn ev => e); \ |
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\ !!ev1 ev2 e. P(e) ==> P(fix ev1(ev2) = e); \ |
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\ !!e1 e2. P(e1) ==> P(e2) ==> P(e1 @ e2) \ |
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\ |] ==> \ |
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\ P(e) \ |
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\ " |
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(* Types - same scheme as for expressions *) |
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(* All constructors are injective *) |
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t_const_inj "t_const(c1) = t_const(c2) ==> c1 = c2" |
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t_fun_inj "t11 -> t12 = t21 -> t22 ==> t11 = t21 & t12 = t22" |
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(* All constructors are distinct, not needed so far ... *) |
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(* Strong elimination, induction on types *) |
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t_ind |
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"[| !!p. P(t_const p); !!t1 t2. P(t1) ==> P(t2) ==> P(t_fun t1 t2) |] \ |
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\ ==> P(t)" |
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(* Values - same scheme again *) |
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(* All constructors are injective *) |
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v_const_inj "v_const(c1) = v_const(c2) ==> c1 = c2" |
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v_clos_inj |
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" v_clos(<|ev1,e1,ve1|>) = v_clos(<|ev2,e2,ve2|>) ==> \ |
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\ ev1 = ev2 & e1 = e2 & ve1 = ve2" |
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(* All constructors are distinct *) |
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v_disj_const_clos "~v_const(c) = v_clos(cl)" |
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(* Strong elimination, induction on values, not needed yet ... *) |
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(* |
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Value environments bind variables to values. Only the following trivial |
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properties are needed. |
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*) |
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ve_dom_owr "ve_dom(ve + {ev |-> v}) = ve_dom(ve) Un {ev}" |
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ve_app_owr1 "ve_app (ve + {ev |-> v}) ev=v" |
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ve_app_owr2 "~ev1=ev2 ==> ve_app (ve+{ev1 |-> v}) ev2=ve_app ve ev2" |
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(* Type Environments bind variables to types. The following trivial |
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properties are needed. *) |
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te_dom_owr "te_dom(te + {ev |=> t}) = te_dom(te) Un {ev}" |
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te_app_owr1 "te_app (te + {ev |=> t}) ev=t" |
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te_app_owr2 "~ev1=ev2 ==> te_app (te+{ev1 |=> t}) ev2=te_app te ev2" |
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(* The dynamic semantics is defined inductively by a set of inference |
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rules. These inference rules allows one to draw conclusions of the form ve |
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|- e ---> v, read the expression e evaluates to the value v in the value |
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environment ve. Therefore the relation _ |- _ ---> _ is defined in Isabelle |
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as the least fixpoint of the functor eval_fun below. From this definition |
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introduction rules and a strong elimination (induction) rule can be |
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derived. |
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*) |
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eval_fun_def |
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" eval_fun(s) == \ |
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\ { pp. \ |
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\ (? ve c. pp=((ve,e_const(c)),v_const(c))) | \ |
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\ (? ve x. pp=((ve,e_var(x)),ve_app ve x) & x:ve_dom(ve)) |\ |
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\ (? ve e x. pp=((ve,fn x => e),v_clos(<|x,e,ve|>)))| \ |
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\ ( ? ve e x f cl. \ |
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\ pp=((ve,fix f(x) = e),v_clos(cl)) & \ |
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\ cl=<|x, e, ve+{f |-> v_clos(cl)} |> \ |
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\ ) | \ |
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\ ( ? ve e1 e2 c1 c2. \ |
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\ pp=((ve,e1 @ e2),v_const(c_app c1 c2)) & \ |
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\ ((ve,e1),v_const(c1)):s & ((ve,e2),v_const(c2)):s \ |
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\ ) | \ |
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\ ( ? ve vem e1 e2 em xm v v2. \ |
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\ pp=((ve,e1 @ e2),v) & \ |
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\ ((ve,e1),v_clos(<|xm,em,vem|>)):s & \ |
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\ ((ve,e2),v2):s & \ |
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\ ((vem+{xm |-> v2},em),v):s \ |
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\ ) \ |
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\ }" |
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eval_rel_def "eval_rel == lfp(eval_fun)" |
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eval_def "ve |- e ---> v == ((ve,e),v):eval_rel" |
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(* The static semantics is defined in the same way as the dynamic |
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semantics. The relation te |- e ===> t express the expression e has the |
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type t in the type environment te. |
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*) |
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elab_fun_def |
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"elab_fun(s) == \ |
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\ { pp. \ |
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\ (? te c t. pp=((te,e_const(c)),t) & c isof t) | \ |
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\ (? te x. pp=((te,e_var(x)),te_app te x) & x:te_dom(te)) | \ |
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\ (? te x e t1 t2. pp=((te,fn x => e),t1->t2) & ((te+{x |=> t1},e),t2):s) | \ |
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\ (? te f x e t1 t2. \ |
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\ pp=((te,fix f(x)=e),t1->t2) & ((te+{f |=> t1->t2}+{x |=> t1},e),t2):s \ |
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\ ) | \ |
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\ (? te e1 e2 t1 t2. \ |
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\ pp=((te,e1 @ e2),t2) & ((te,e1),t1->t2):s & ((te,e2),t1):s \ |
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\ ) \ |
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\ }" |
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elab_rel_def "elab_rel == lfp(elab_fun)" |
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elab_def "te |- e ===> t == ((te,e),t):elab_rel" |
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(* The original correspondence relation *) |
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isof_env_def |
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" ve isofenv te == \ |
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\ ve_dom(ve) = te_dom(te) & \ |
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\ ( ! x. \ |
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\ x:ve_dom(ve) --> \ |
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\ (? c.ve_app ve x = v_const(c) & c isof te_app te x) \ |
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\ ) \ |
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\ " |
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isof_app "[| c1 isof t1->t2; c2 isof t1 |] ==> c_app c1 c2 isof t2" |
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(* The extented correspondence relation *) |
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hasty_fun_def |
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" hasty_fun(r) == \ |
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\ { p. \ |
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\ ( ? c t. p = (v_const(c),t) & c isof t) | \ |
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\ ( ? ev e ve t te. \ |
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\ p = (v_clos(<|ev,e,ve|>),t) & \ |
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\ te |- fn ev => e ===> t & \ |
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\ ve_dom(ve) = te_dom(te) & \ |
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\ (! ev1.ev1:ve_dom(ve) --> (ve_app ve ev1,te_app te ev1) : r) \ |
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\ ) \ |
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\ } \ |
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\ " |
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hasty_rel_def "hasty_rel == gfp(hasty_fun)" |
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hasty_def "v hasty t == (v,t) : hasty_rel" |
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hasty_env_def |
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" ve hastyenv te == \ |
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\ ve_dom(ve) = te_dom(te) & \ |
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\ (! x. x: ve_dom(ve) --> ve_app ve x hasty te_app te x)" |
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end |