(* Title: HOL/MicroJava/J/WellType.thy
ID: $Id$
Author: David von Oheimb
Copyright 1999 Technische Universitaet Muenchen
Well-typedness of Java programs
the formulation of well-typedness of method calls given below (as well as
the Java Specification 1.0) is a little too restrictive: Is does not allow
methods of class Object to be called upon references of interface type.
simplifications:
* the type rules include all static checks on expressions and statements, e.g.
definedness of names (of parameters, locals, fields, methods)
*)
WellType = Term + WellForm +
types lenv (* local variables, including method parameters and This *)
= "vname \\<leadsto> ty"
'c env
= "'c prog \\<times> lenv"
syntax
prg :: "'c env => 'c prog"
localT :: "'c env => (vname \\<leadsto> ty)"
translations
"prg" => "fst"
"localT" => "snd"
consts
more_spec :: "'c prog => (ty \\<times> 'x) \\<times> ty list =>
(ty \\<times> 'x) \\<times> ty list => bool"
appl_methds :: "'c prog => cname => sig => ((ty \\<times> ty) \\<times> ty list) set"
max_spec :: "'c prog => cname => sig => ((ty \\<times> ty) \\<times> ty list) set"
defs
more_spec_def "more_spec G == \\<lambda>((d,h),pTs). \\<lambda>((d',h'),pTs'). G\\<turnstile>d\\<preceq>d' \\<and>
list_all2 (\\<lambda>T T'. G\\<turnstile>T\\<preceq>T') pTs pTs'"
(* applicable methods, cf. 15.11.2.1 *)
appl_methds_def "appl_methds G C == \\<lambda>(mn, pTs).
{((Class md,rT),pTs') |md rT mb pTs'.
method (G,C) (mn, pTs') = Some (md,rT,mb) \\<and>
list_all2 (\\<lambda>T T'. G\\<turnstile>T\\<preceq>T') pTs pTs'}"
(* maximally specific methods, cf. 15.11.2.2 *)
max_spec_def "max_spec G C sig == {m. m \\<in>appl_methds G C sig \\<and>
(\\<forall>m'\\<in>appl_methds G C sig.
more_spec G m' m --> m' = m)}"
consts
typeof :: "(loc => ty option) => val => ty option"
primrec
"typeof dt Unit = Some (PrimT Void)"
"typeof dt Null = Some NT"
"typeof dt (Bool b) = Some (PrimT Boolean)"
"typeof dt (Intg i) = Some (PrimT Integer)"
"typeof dt (Addr a) = dt a"
types
java_mb = "vname list \\<times> (vname \\<times> ty) list \\<times> stmt \\<times> expr"
(* method body with parameter names, local variables, block, result expression *)
consts
ty_expr :: "java_mb env => (expr \\<times> ty ) set"
ty_exprs:: "java_mb env => (expr list \\<times> ty list) set"
wt_stmt :: "java_mb env => stmt set"
syntax
ty_expr :: "java_mb env => [expr , ty ] => bool" ("_ \\<turnstile> _ :: _" [51,51,51]50)
ty_exprs:: "java_mb env => [expr list, ty list] => bool" ("_ \\<turnstile> _ [::] _" [51,51,51]50)
wt_stmt :: "java_mb env => stmt => bool" ("_ \\<turnstile> _ \\<surd>" [51,51 ]50)
syntax (HTML)
ty_expr :: "java_mb env => [expr , ty ] => bool" ("_ |- _ :: _" [51,51,51]50)
ty_exprs:: "java_mb env => [expr list, ty list] => bool" ("_ |- _ [::] _" [51,51,51]50)
wt_stmt :: "java_mb env => stmt => bool" ("_ |- _ [ok]" [51,51 ]50)
translations
"E\\<turnstile>e :: T" == "(e,T) \\<in> ty_expr E"
"E\\<turnstile>e[::]T" == "(e,T) \\<in> ty_exprs E"
"E\\<turnstile>c \\<surd>" == "c \\<in> wt_stmt E"
inductive "ty_expr E" "ty_exprs E" "wt_stmt E" intrs
(* well-typed expressions *)
(* cf. 15.8 *)
NewC "[| is_class (prg E) C |] ==>
E\\<turnstile>NewC C::Class C"
(* cf. 15.15 *)
Cast "[| E\\<turnstile>e::Class C; is_class (prg E) D;
prg E\\<turnstile>C\\<preceq>? D |] ==>
E\\<turnstile>Cast D e::Class D"
(* cf. 15.7.1 *)
Lit "[| typeof (\\<lambda>v. None) x = Some T |] ==>
E\\<turnstile>Lit x::T"
(* cf. 15.13.1 *)
LAcc "[| localT E v = Some T; is_type (prg E) T |] ==>
E\\<turnstile>LAcc v::T"
BinOp "[| E\\<turnstile>e1::T;
E\\<turnstile>e2::T;
if bop = Eq then T' = PrimT Boolean
else T' = T \\<and> T = PrimT Integer|] ==>
E\\<turnstile>BinOp bop e1 e2::T'"
(* cf. 15.25, 15.25.1 *)
LAss "[| E\\<turnstile>LAcc v::T;
E\\<turnstile>e::T';
prg E\\<turnstile>T'\\<preceq>T |] ==>
E\\<turnstile>v::=e::T'"
(* cf. 15.10.1 *)
FAcc "[| E\\<turnstile>a::Class C;
field (prg E,C) fn = Some (fd,fT) |] ==>
E\\<turnstile>{fd}a..fn::fT"
(* cf. 15.25, 15.25.1 *)
FAss "[| E\\<turnstile>{fd}a..fn::T;
E\\<turnstile>v ::T';
prg E\\<turnstile>T'\\<preceq>T |] ==>
E\\<turnstile>{fd}a..fn:=v::T'"
(* cf. 15.11.1, 15.11.2, 15.11.3 *)
Call "[| E\\<turnstile>a::Class C;
E\\<turnstile>ps[::]pTs;
max_spec (prg E) C (mn, pTs) = {((md,rT),pTs')} |] ==>
E\\<turnstile>{C}a..mn({pTs'}ps)::rT"
(* well-typed expression lists *)
(* cf. 15.11.??? *)
Nil "E\\<turnstile>[][::][]"
(* cf. 15.11.??? *)
Cons "[| E\\<turnstile>e::T;
E\\<turnstile>es[::]Ts |] ==>
E\\<turnstile>e#es[::]T#Ts"
(* well-typed statements *)
Skip "E\\<turnstile>Skip\\<surd>"
Expr "[| E\\<turnstile>e::T |] ==>
E\\<turnstile>Expr e\\<surd>"
Comp "[| E\\<turnstile>s1\\<surd>;
E\\<turnstile>s2\\<surd> |] ==>
E\\<turnstile>s1;; s2\\<surd>"
(* cf. 14.8 *)
Cond "[| E\\<turnstile>e::PrimT Boolean;
E\\<turnstile>s1\\<surd>;
E\\<turnstile>s2\\<surd> |] ==>
E\\<turnstile>If(e) s1 Else s2\\<surd>"
(* cf. 14.10 *)
Loop "[| E\\<turnstile>e::PrimT Boolean;
E\\<turnstile>s\\<surd> |] ==>
E\\<turnstile>While(e) s\\<surd>"
constdefs
wf_java_mdecl :: java_mb prog => cname => java_mb mdecl => bool
"wf_java_mdecl G C == \\<lambda>((mn,pTs),rT,(pns,lvars,blk,res)).
length pTs = length pns \\<and>
nodups pns \\<and>
unique lvars \\<and>
(\\<forall>pn\\<in>set pns. map_of lvars pn = None) \\<and>
(\\<forall>(vn,T)\\<in>set lvars. is_type G T) &
(let E = (G,map_of lvars(pns[\\<mapsto>]pTs)(This\\<mapsto>Class C)) in
E\\<turnstile>blk\\<surd> \\<and> (\\<exists>T. E\\<turnstile>res::T \\<and> G\\<turnstile>T\\<preceq>rT))"
wf_java_prog :: java_mb prog => bool
"wf_java_prog G == wf_prog wf_java_mdecl G"
end