src/HOL/Bali/DeclConcepts.thy
author haftmann
Fri Jun 17 16:12:49 2005 +0200 (2005-06-17)
changeset 16417 9bc16273c2d4
parent 14981 e73f8140af78
child 19564 d3e2f532459a
permissions -rw-r--r--
migrated theory headers to new format
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(*  Title:      HOL/Bali/DeclConcepts.thy
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    ID:         $Id$
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    Author:     Norbert Schirmer
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*)
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header {* Advanced concepts on Java declarations like overriding, inheritance,
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dynamic method lookup*}
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theory DeclConcepts imports TypeRel begin
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section "access control (cf. 6.6), overriding and hiding (cf. 8.4.6.1)"
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constdefs
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is_public :: "prog \<Rightarrow> qtname \<Rightarrow> bool"
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"is_public G qn \<equiv> (case class G qn of
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                     None       \<Rightarrow> (case iface G qn of
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                                      None       \<Rightarrow> False
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                                    | Some iface \<Rightarrow> access iface = Public)
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                   | Some class \<Rightarrow> access class = Public)"
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subsection "accessibility of types (cf. 6.6.1)"
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text {* 
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Primitive types are always accessible, interfaces and classes are accessible
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in their package or if they are defined public, an array type is accessible if
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its element type is accessible *}
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consts accessible_in   :: "prog \<Rightarrow> ty     \<Rightarrow> pname \<Rightarrow> bool"  
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                                      ("_ \<turnstile> _ accessible'_in _" [61,61,61] 60)
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       rt_accessible_in:: "prog \<Rightarrow> ref_ty \<Rightarrow> pname \<Rightarrow> bool" 
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                                      ("_ \<turnstile> _ accessible'_in' _" [61,61,61] 60) 
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primrec
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"G\<turnstile>(PrimT p)   accessible_in pack  = True"
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accessible_in_RefT_simp: 
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"G\<turnstile>(RefT  r)   accessible_in pack  = G\<turnstile>r accessible_in' pack"
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"G\<turnstile>(NullT)     accessible_in' pack = True"
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"G\<turnstile>(IfaceT I)  accessible_in' pack = ((pid I = pack) \<or> is_public G I)"
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"G\<turnstile>(ClassT C)  accessible_in' pack = ((pid C = pack) \<or> is_public G C)"
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"G\<turnstile>(ArrayT ty) accessible_in' pack = G\<turnstile>ty accessible_in pack"
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declare accessible_in_RefT_simp [simp del]
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constdefs
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  is_acc_class :: "prog \<Rightarrow> pname \<Rightarrow> qtname \<Rightarrow> bool"
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    "is_acc_class G P C \<equiv> is_class G C \<and> G\<turnstile>(Class C) accessible_in P"
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  is_acc_iface :: "prog \<Rightarrow> pname \<Rightarrow> qtname \<Rightarrow> bool"
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    "is_acc_iface G P I \<equiv> is_iface G I \<and> G\<turnstile>(Iface I) accessible_in P"
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  is_acc_type  :: "prog \<Rightarrow> pname \<Rightarrow> ty     \<Rightarrow> bool"
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    "is_acc_type  G P T \<equiv> is_type G T  \<and> G\<turnstile>T accessible_in P"
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  is_acc_reftype  :: "prog \<Rightarrow> pname \<Rightarrow> ref_ty \<Rightarrow> bool"
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  "is_acc_reftype  G P T \<equiv> isrtype G T  \<and> G\<turnstile>T accessible_in' P"
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lemma is_acc_classD:
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 "is_acc_class G P C \<Longrightarrow>  is_class G C \<and> G\<turnstile>(Class C) accessible_in P"
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by (simp add: is_acc_class_def)
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lemma is_acc_class_is_class: "is_acc_class G P C \<Longrightarrow> is_class G C"
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by (auto simp add: is_acc_class_def)
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lemma is_acc_ifaceD:
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  "is_acc_iface G P I \<Longrightarrow> is_iface G I \<and> G\<turnstile>(Iface I) accessible_in P"
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by (simp add: is_acc_iface_def)
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lemma is_acc_typeD:
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 "is_acc_type  G P T \<Longrightarrow> is_type G T  \<and> G\<turnstile>T accessible_in P"
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by (simp add: is_acc_type_def)
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lemma is_acc_reftypeD:
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"is_acc_reftype  G P T \<Longrightarrow> isrtype G T  \<and> G\<turnstile>T accessible_in' P"
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by (simp add: is_acc_reftype_def)
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subsection "accessibility of members"
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text {*
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The accessibility of members is more involved as the accessibility of types.
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We have to distinguish several cases to model the different effects of 
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accessibility during inheritance, overriding and ordinary member access 
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*}
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subsubsection {* Various technical conversion and selection functions *}
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text {* overloaded selector @{text accmodi} to select the access modifier 
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out of various HOL types *}
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axclass has_accmodi < "type"
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consts accmodi:: "'a::has_accmodi \<Rightarrow> acc_modi"
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instance acc_modi::has_accmodi ..
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defs (overloaded)
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acc_modi_accmodi_def: "accmodi (a::acc_modi) \<equiv> a"
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lemma acc_modi_accmodi_simp[simp]: "accmodi (a::acc_modi) = a"
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by (simp add: acc_modi_accmodi_def)
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instance decl_ext_type:: ("type") has_accmodi ..
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defs (overloaded)
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decl_acc_modi_def: "accmodi (d::('a:: type) decl_scheme) \<equiv> access d"
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lemma decl_acc_modi_simp[simp]: "accmodi (d::('a::type) decl_scheme) = access d"
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by (simp add: decl_acc_modi_def)
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instance * :: ("type",has_accmodi) has_accmodi ..
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defs (overloaded)
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pair_acc_modi_def: "accmodi p \<equiv> (accmodi (snd p))"
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lemma pair_acc_modi_simp[simp]: "accmodi (x,a) = (accmodi a)"
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by (simp add: pair_acc_modi_def)
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instance memberdecl :: has_accmodi ..
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defs (overloaded)
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memberdecl_acc_modi_def: "accmodi m \<equiv> (case m of
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                                          fdecl f \<Rightarrow> accmodi f
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                                        | mdecl m \<Rightarrow> accmodi m)"
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lemma memberdecl_fdecl_acc_modi_simp[simp]:
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 "accmodi (fdecl m) = accmodi m"
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by (simp add: memberdecl_acc_modi_def)
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lemma memberdecl_mdecl_acc_modi_simp[simp]:
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 "accmodi (mdecl m) = accmodi m"
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by (simp add: memberdecl_acc_modi_def)
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text {* overloaded selector @{text declclass} to select the declaring class 
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out of various HOL types *}
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axclass has_declclass < "type"
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consts declclass:: "'a::has_declclass \<Rightarrow> qtname"
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instance qtname_ext_type::("type") has_declclass ..
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defs (overloaded)
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qtname_declclass_def: "declclass (q::qtname) \<equiv> q"
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lemma qtname_declclass_simp[simp]: "declclass (q::qtname) = q"
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by (simp add: qtname_declclass_def)
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instance * :: ("has_declclass","type") has_declclass ..
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defs (overloaded)
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pair_declclass_def: "declclass p \<equiv> declclass (fst p)"
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lemma pair_declclass_simp[simp]: "declclass (c,x) = declclass c" 
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by (simp add: pair_declclass_def)
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text {* overloaded selector @{text is_static} to select the static modifier 
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out of various HOL types *}
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axclass has_static < "type"
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consts is_static :: "'a::has_static \<Rightarrow> bool"
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instance decl_ext_type :: ("has_static") has_static ..
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defs (overloaded)
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decl_is_static_def: 
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 "is_static (m::('a::has_static) decl_scheme) \<equiv> is_static (Decl.decl.more m)" 
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instance member_ext_type :: ("type") has_static ..
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defs (overloaded)
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static_field_type_is_static_def: 
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 "is_static (m::('b::type) member_ext_type) \<equiv> static_sel m"
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lemma member_is_static_simp: "is_static (m::'a member_scheme) = static m"
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apply (cases m)
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apply (simp add: static_field_type_is_static_def 
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                 decl_is_static_def Decl.member.dest_convs)
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done
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instance * :: ("type","has_static") has_static ..
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defs (overloaded)
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pair_is_static_def: "is_static p \<equiv> is_static (snd p)"
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lemma pair_is_static_simp [simp]: "is_static (x,s) = is_static s"
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by (simp add: pair_is_static_def)
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lemma pair_is_static_simp1: "is_static p = is_static (snd p)"
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by (simp add: pair_is_static_def)
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instance memberdecl:: has_static ..
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defs (overloaded)
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memberdecl_is_static_def: 
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 "is_static m \<equiv> (case m of
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                    fdecl f \<Rightarrow> is_static f
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                  | mdecl m \<Rightarrow> is_static m)"
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lemma memberdecl_is_static_fdecl_simp[simp]:
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 "is_static (fdecl f) = is_static f"
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by (simp add: memberdecl_is_static_def)
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lemma memberdecl_is_static_mdecl_simp[simp]:
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 "is_static (mdecl m) = is_static m"
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by (simp add: memberdecl_is_static_def)
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lemma mhead_static_simp [simp]: "is_static (mhead m) = is_static m"
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by (cases m) (simp add: mhead_def member_is_static_simp)
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constdefs  --{* some mnemotic selectors for various pairs *} 
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 "decliface":: "(qtname \<times> ('a::type) decl_scheme) \<Rightarrow> qtname"
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 "decliface \<equiv> fst"          --{* get the interface component *}
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 "mbr"::   "(qtname \<times> memberdecl) \<Rightarrow> memberdecl"
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 "mbr \<equiv> snd"            --{* get the memberdecl component *}
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 "mthd"::   "('b \<times> 'a) \<Rightarrow> 'a"
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                           --{* also used for mdecl, mhead *}
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 "mthd \<equiv> snd"              --{* get the method component *}
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 "fld"::   "('b \<times> ('a::type) decl_scheme) \<Rightarrow> ('a::type) decl_scheme"
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              --{* also used for @{text "((vname \<times> qtname)\<times> field)"} *}
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 "fld \<equiv> snd"               --{* get the field component *}
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constdefs --{* some mnemotic selectors for @{text "(vname \<times> qtname)"} *}
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 fname:: "(vname \<times> 'a) \<Rightarrow> vname" --{* also used for fdecl *}
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 "fname \<equiv> fst"
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  declclassf:: "(vname \<times> qtname) \<Rightarrow> qtname"
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 "declclassf \<equiv> snd"
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lemma decliface_simp[simp]: "decliface (I,m) = I"
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by (simp add: decliface_def) 
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lemma mbr_simp[simp]: "mbr (C,m) = m"
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by (simp add: mbr_def)
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lemma access_mbr_simp [simp]: "(accmodi (mbr m)) = accmodi m"
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by (cases m) (simp add:  mbr_def) 
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lemma mthd_simp[simp]: "mthd (C,m) = m"
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by (simp add: mthd_def)
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lemma fld_simp[simp]: "fld (C,f) = f"
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by (simp add: fld_def)
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lemma accmodi_simp[simp]: "accmodi (C,m) = access m"
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by (simp )
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lemma access_mthd_simp [simp]: "(access (mthd m)) = accmodi m"
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by (cases m) (simp add: mthd_def) 
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lemma access_fld_simp [simp]: "(access (fld f)) = accmodi f"
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by (cases f) (simp add:  fld_def) 
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lemma static_mthd_simp[simp]: "static (mthd m) = is_static m"
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by (cases m) (simp add:  mthd_def member_is_static_simp)
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lemma mthd_is_static_simp [simp]: "is_static (mthd m) = is_static m"
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by (cases m) simp
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lemma static_fld_simp[simp]: "static (fld f) = is_static f"
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by (cases f) (simp add:  fld_def member_is_static_simp)
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lemma ext_field_simp [simp]: "(declclass f,fld f) = f"
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by (cases f) (simp add:  fld_def)
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lemma ext_method_simp [simp]: "(declclass m,mthd m) = m"
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by (cases m) (simp add:  mthd_def)
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lemma ext_mbr_simp [simp]: "(declclass m,mbr m) = m"
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by (cases m) (simp add: mbr_def)
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lemma fname_simp[simp]:"fname (n,c) = n"
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by (simp add: fname_def)
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lemma declclassf_simp[simp]:"declclassf (n,c) = c"
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by (simp add: declclassf_def)
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constdefs  --{* some mnemotic selectors for @{text "(vname \<times> qtname)"} *}
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  "fldname"  :: "(vname \<times> qtname) \<Rightarrow> vname" 
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  "fldname \<equiv> fst"
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  "fldclass" :: "(vname \<times> qtname) \<Rightarrow> qtname"
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  "fldclass \<equiv> snd"
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lemma fldname_simp[simp]: "fldname (n,c) = n"
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by (simp add: fldname_def)
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lemma fldclass_simp[simp]: "fldclass (n,c) = c"
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by (simp add: fldclass_def)
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lemma ext_fieldname_simp[simp]: "(fldname f,fldclass f) = f"
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by (simp add: fldname_def fldclass_def)
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text {* Convert a qualified method declaration (qualified with its declaring 
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class) to a qualified member declaration:  @{text methdMembr}  *}
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constdefs
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methdMembr :: "(qtname \<times> mdecl) \<Rightarrow> (qtname \<times> memberdecl)"
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 "methdMembr m \<equiv> (fst m,mdecl (snd m))"
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lemma methdMembr_simp[simp]: "methdMembr (c,m) = (c,mdecl m)"
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by (simp add: methdMembr_def)
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lemma accmodi_methdMembr_simp[simp]: "accmodi (methdMembr m) = accmodi m"
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by (cases m) (simp add: methdMembr_def)
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lemma is_static_methdMembr_simp[simp]: "is_static (methdMembr m) = is_static m"
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by (cases m) (simp add: methdMembr_def)
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lemma declclass_methdMembr_simp[simp]: "declclass (methdMembr m) = declclass m"
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by (cases m) (simp add: methdMembr_def)
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text {* Convert a qualified method (qualified with its declaring 
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class) to a qualified member declaration:  @{text method}  *}
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   315
constdefs
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method :: "sig \<Rightarrow> (qtname \<times> methd) \<Rightarrow> (qtname \<times> memberdecl)" 
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   317
"method sig m \<equiv> (declclass m, mdecl (sig, mthd m))"
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   318
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   319
lemma method_simp[simp]: "method sig (C,m) = (C,mdecl (sig,m))"
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by (simp add: method_def)
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   321
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   322
lemma accmodi_method_simp[simp]: "accmodi (method sig m) = accmodi m"
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   323
by (simp add: method_def)
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   324
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   325
lemma declclass_method_simp[simp]: "declclass (method sig m) = declclass m"
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   326
by (simp add: method_def)
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   327
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   328
lemma is_static_method_simp[simp]: "is_static (method sig m) = is_static m"
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   329
by (cases m) (simp add: method_def)
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   330
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   331
lemma mbr_method_simp[simp]: "mbr (method sig m) = mdecl (sig,mthd m)"
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   332
by (simp add: mbr_def method_def)
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   333
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   334
lemma memberid_method_simp[simp]:  "memberid (method sig m) = mid sig"
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   335
  by (simp add: method_def) 
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   336
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   337
constdefs
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   338
fieldm :: "vname \<Rightarrow> (qtname \<times> field) \<Rightarrow> (qtname \<times> memberdecl)" 
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   339
"fieldm n f \<equiv> (declclass f, fdecl (n, fld f))"
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   340
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   341
lemma fieldm_simp[simp]: "fieldm n (C,f) = (C,fdecl (n,f))"
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   342
by (simp add: fieldm_def)
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   343
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   344
lemma accmodi_fieldm_simp[simp]: "accmodi (fieldm n f) = accmodi f"
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by (simp add: fieldm_def)
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   346
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   347
lemma declclass_fieldm_simp[simp]: "declclass (fieldm n f) = declclass f"
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   348
by (simp add: fieldm_def)
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   349
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   350
lemma is_static_fieldm_simp[simp]: "is_static (fieldm n f) = is_static f"
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   351
by (cases f) (simp add: fieldm_def)
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   352
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   353
lemma mbr_fieldm_simp[simp]: "mbr (fieldm n f) = fdecl (n,fld f)"
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   354
by (simp add: mbr_def fieldm_def)
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   355
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   356
lemma memberid_fieldm_simp[simp]:  "memberid (fieldm n f) = fid n"
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   357
by (simp add: fieldm_def) 
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   358
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   359
text {* Select the signature out of a qualified method declaration:
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   360
 @{text msig} *}
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   361
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   362
constdefs msig:: "(qtname \<times> mdecl) \<Rightarrow> sig"
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   363
"msig m \<equiv> fst (snd m)"
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   364
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   365
lemma msig_simp[simp]: "msig (c,(s,m)) = s"
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   366
by (simp add: msig_def)
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   367
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   368
text {* Convert a qualified method (qualified with its declaring 
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   369
class) to a qualified method declaration:  @{text qmdecl}  *}
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   370
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   371
constdefs qmdecl :: "sig \<Rightarrow> (qtname \<times> methd) \<Rightarrow> (qtname \<times> mdecl)"
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   372
"qmdecl sig m \<equiv> (declclass m, (sig,mthd m))"
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   373
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   374
lemma qmdecl_simp[simp]: "qmdecl sig (C,m) = (C,(sig,m))"
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   375
by (simp add: qmdecl_def)
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   376
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   377
lemma declclass_qmdecl_simp[simp]: "declclass (qmdecl sig m) = declclass m"
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   378
by (simp add: qmdecl_def)
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   379
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   380
lemma accmodi_qmdecl_simp[simp]: "accmodi (qmdecl sig m) = accmodi m"
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   381
by (simp add: qmdecl_def)
schirmer@12854
   382
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   383
lemma is_static_qmdecl_simp[simp]: "is_static (qmdecl sig m) = is_static m"
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   384
by (cases m) (simp add: qmdecl_def)
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   385
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   386
lemma msig_qmdecl_simp[simp]: "msig (qmdecl sig m) = sig"
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   387
by (simp add: qmdecl_def)
schirmer@12854
   388
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   389
lemma mdecl_qmdecl_simp[simp]:  
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   390
 "mdecl (mthd (qmdecl sig new)) = mdecl (sig, mthd new)" 
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   391
by (simp add: qmdecl_def) 
schirmer@12854
   392
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   393
lemma methdMembr_qmdecl_simp [simp]: 
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   394
 "methdMembr (qmdecl sig old) = method sig old"
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   395
by (simp add: methdMembr_def qmdecl_def method_def)
schirmer@12854
   396
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   397
text {* overloaded selector @{text resTy} to select the result type 
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   398
out of various HOL types *}
schirmer@12854
   399
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   400
axclass has_resTy < "type"
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   401
consts resTy:: "'a::has_resTy \<Rightarrow> ty"
schirmer@12854
   402
schirmer@14700
   403
instance decl_ext_type :: ("has_resTy") has_resTy ..
schirmer@12854
   404
schirmer@12854
   405
defs (overloaded)
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   406
decl_resTy_def: 
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   407
 "resTy (m::('a::has_resTy) decl_scheme) \<equiv> resTy (Decl.decl.more m)" 
schirmer@12854
   408
schirmer@14700
   409
instance member_ext_type :: ("has_resTy") has_resTy ..
schirmer@12854
   410
schirmer@12854
   411
defs (overloaded)
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   412
member_ext_type_resTy_def: 
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   413
 "resTy (m::('b::has_resTy) member_ext_type) 
schirmer@14709
   414
  \<equiv> resTy (member.more_sel m)" 
schirmer@12854
   415
schirmer@14700
   416
instance mhead_ext_type :: ("type") has_resTy ..
schirmer@12854
   417
schirmer@12854
   418
defs (overloaded)
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   419
mhead_ext_type_resTy_def: 
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   420
 "resTy (m::('b mhead_ext_type)) 
schirmer@14709
   421
  \<equiv> resT_sel m" 
schirmer@12854
   422
schirmer@12854
   423
lemma mhead_resTy_simp: "resTy (m::'a mhead_scheme) = resT m"
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   424
apply (cases m)
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   425
apply (simp add: decl_resTy_def member_ext_type_resTy_def 
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   426
                 mhead_ext_type_resTy_def 
schirmer@12854
   427
                 member.dest_convs mhead.dest_convs)
schirmer@12854
   428
done
schirmer@12854
   429
schirmer@12854
   430
lemma resTy_mhead [simp]:"resTy (mhead m) = resTy m"
schirmer@12854
   431
by (simp add: mhead_def mhead_resTy_simp)
schirmer@12854
   432
wenzelm@12859
   433
instance * :: ("type","has_resTy") has_resTy ..
schirmer@12854
   434
schirmer@12854
   435
defs (overloaded)
schirmer@12854
   436
pair_resTy_def: "resTy p \<equiv> resTy (snd p)"
schirmer@12854
   437
schirmer@12854
   438
lemma pair_resTy_simp[simp]: "resTy (x,m) = resTy m"
schirmer@12854
   439
by (simp add: pair_resTy_def)
schirmer@12854
   440
schirmer@12854
   441
lemma qmdecl_resTy_simp [simp]: "resTy (qmdecl sig m) = resTy m"
schirmer@12854
   442
by (cases m) (simp)
schirmer@12854
   443
schirmer@12854
   444
lemma resTy_mthd [simp]:"resTy (mthd m) = resTy m"
schirmer@12854
   445
by (cases m) (simp add: mthd_def )
schirmer@12854
   446
schirmer@12854
   447
subsubsection "inheritable-in"
schirmer@12854
   448
text {*
schirmer@12854
   449
@{text "G\<turnstile>m inheritable_in P"}: m can be inherited by
schirmer@12854
   450
classes in package P if:
schirmer@12854
   451
\begin{itemize} 
schirmer@12854
   452
\item the declaration class of m is accessible in P and
schirmer@12854
   453
\item the member m is declared with protected or public access or if it is
schirmer@12854
   454
      declared with default (package) access, the package of the declaration 
schirmer@12854
   455
      class of m is also P. If the member m is declared with private access
schirmer@12854
   456
      it is not accessible for inheritance at all.
schirmer@12854
   457
\end{itemize}
schirmer@12854
   458
*}
schirmer@12854
   459
constdefs
schirmer@12854
   460
inheritable_in:: 
schirmer@12854
   461
 "prog \<Rightarrow> (qtname \<times> memberdecl) \<Rightarrow> pname \<Rightarrow> bool"
schirmer@12854
   462
                  ("_ \<turnstile> _ inheritable'_in _" [61,61,61] 60)
schirmer@12854
   463
"G\<turnstile>membr inheritable_in pack 
schirmer@12854
   464
  \<equiv> (case (accmodi membr) of
schirmer@12854
   465
       Private   \<Rightarrow> False
schirmer@12854
   466
     | Package   \<Rightarrow> (pid (declclass membr)) = pack
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   467
     | Protected \<Rightarrow> True
schirmer@12854
   468
     | Public    \<Rightarrow> True)"
schirmer@12854
   469
schirmer@12854
   470
syntax
schirmer@12854
   471
Method_inheritable_in::
schirmer@12854
   472
 "prog \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> pname \<Rightarrow> bool"
schirmer@12854
   473
                ("_ \<turnstile>Method _ inheritable'_in _ " [61,61,61] 60)
schirmer@12854
   474
schirmer@12854
   475
translations
schirmer@12854
   476
"G\<turnstile>Method m inheritable_in p" == "G\<turnstile>methdMembr m inheritable_in p"
schirmer@12854
   477
schirmer@12854
   478
syntax
schirmer@12854
   479
Methd_inheritable_in::
schirmer@12854
   480
 "prog \<Rightarrow> sig \<Rightarrow> (qtname \<times> methd) \<Rightarrow> pname \<Rightarrow> bool"
schirmer@12854
   481
                ("_ \<turnstile>Methd _ _ inheritable'_in _ " [61,61,61,61] 60)
schirmer@12854
   482
schirmer@12854
   483
translations
schirmer@12854
   484
"G\<turnstile>Methd s m inheritable_in p" == "G\<turnstile>(method s m) inheritable_in p"
schirmer@12854
   485
schirmer@12854
   486
subsubsection "declared-in/undeclared-in"
schirmer@12854
   487
schirmer@12854
   488
constdefs cdeclaredmethd:: "prog \<Rightarrow> qtname \<Rightarrow> (sig,methd) table"
schirmer@12854
   489
"cdeclaredmethd G C 
schirmer@12854
   490
  \<equiv> (case class G C of
schirmer@12854
   491
       None \<Rightarrow> \<lambda> sig. None
schirmer@12854
   492
     | Some c \<Rightarrow> table_of (methods c)
schirmer@12854
   493
    )"
schirmer@12854
   494
schirmer@12854
   495
constdefs
schirmer@12854
   496
cdeclaredfield:: "prog \<Rightarrow> qtname \<Rightarrow> (vname,field) table"
schirmer@12854
   497
"cdeclaredfield G C 
schirmer@12854
   498
  \<equiv> (case class G C of
schirmer@12854
   499
       None \<Rightarrow> \<lambda> sig. None
schirmer@12854
   500
     | Some c \<Rightarrow> table_of (cfields c)
schirmer@12854
   501
    )"
schirmer@12854
   502
schirmer@12854
   503
schirmer@12854
   504
constdefs
schirmer@12854
   505
declared_in:: "prog  \<Rightarrow> memberdecl \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   506
                                 ("_\<turnstile> _ declared'_in _" [61,61,61] 60)
schirmer@12854
   507
"G\<turnstile>m declared_in C \<equiv> (case m of
schirmer@12854
   508
                        fdecl (fn,f ) \<Rightarrow> cdeclaredfield G C fn  = Some f
schirmer@12854
   509
                      | mdecl (sig,m) \<Rightarrow> cdeclaredmethd G C sig = Some m)"
schirmer@12854
   510
schirmer@12854
   511
syntax
schirmer@12854
   512
method_declared_in:: "prog  \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   513
                                 ("_\<turnstile>Method _ declared'_in _" [61,61,61] 60)
schirmer@12854
   514
translations
schirmer@12854
   515
"G\<turnstile>Method m declared_in C" == "G\<turnstile>mdecl (mthd m) declared_in C"
schirmer@12854
   516
schirmer@12854
   517
syntax
schirmer@12854
   518
methd_declared_in:: "prog  \<Rightarrow> sig  \<Rightarrow>(qtname \<times> methd) \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   519
                               ("_\<turnstile>Methd _  _ declared'_in _" [61,61,61,61] 60)
schirmer@12854
   520
translations
schirmer@12854
   521
"G\<turnstile>Methd s m declared_in C" == "G\<turnstile>mdecl (s,mthd m) declared_in C"
schirmer@12854
   522
schirmer@12854
   523
lemma declared_in_classD:
schirmer@12854
   524
 "G\<turnstile>m declared_in C \<Longrightarrow> is_class G C"
schirmer@12854
   525
by (cases m) 
schirmer@12854
   526
   (auto simp add: declared_in_def cdeclaredmethd_def cdeclaredfield_def)
schirmer@12854
   527
schirmer@12854
   528
constdefs
schirmer@12854
   529
undeclared_in:: "prog  \<Rightarrow> memberid \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   530
                                 ("_\<turnstile> _ undeclared'_in _" [61,61,61] 60)
schirmer@12854
   531
schirmer@12854
   532
"G\<turnstile>m undeclared_in C \<equiv> (case m of
schirmer@12854
   533
                            fid fn  \<Rightarrow> cdeclaredfield G C fn  = None
schirmer@12854
   534
                          | mid sig \<Rightarrow> cdeclaredmethd G C sig = None)"
schirmer@12854
   535
schirmer@12854
   536
schirmer@12854
   537
subsubsection "members"
schirmer@12854
   538
schirmer@12854
   539
consts
schirmer@12854
   540
members:: "prog \<Rightarrow> (qtname \<times> (qtname \<times> memberdecl)) set"
schirmer@12854
   541
(* Can't just take a function: prog \<Rightarrow> qtname \<Rightarrow> memberdecl set because
schirmer@12854
   542
   the class qtname changes to the superclass in the inductive definition
schirmer@12854
   543
   below
schirmer@12854
   544
*)
schirmer@12854
   545
schirmer@12854
   546
syntax
schirmer@12854
   547
member_of:: "prog \<Rightarrow> (qtname \<times> memberdecl) \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   548
                           ("_ \<turnstile> _ member'_of _" [61,61,61] 60)
schirmer@12854
   549
schirmer@12854
   550
translations
schirmer@12854
   551
 "G\<turnstile>m member_of C" \<rightleftharpoons> "(C,m) \<in> members G"
schirmer@12854
   552
schirmer@12854
   553
inductive "members G"  intros
schirmer@12854
   554
schirmer@12854
   555
Immediate: "\<lbrakk>G\<turnstile>mbr m declared_in C;declclass m = C\<rbrakk> \<Longrightarrow> G\<turnstile>m member_of C"
schirmer@12854
   556
Inherited: "\<lbrakk>G\<turnstile>m inheritable_in (pid C); G\<turnstile>memberid m undeclared_in C; 
schirmer@12854
   557
             G\<turnstile>C \<prec>\<^sub>C\<^sub>1 S; G\<turnstile>(Class S) accessible_in (pid C);G\<turnstile>m member_of S 
schirmer@12854
   558
            \<rbrakk> \<Longrightarrow> G\<turnstile>m member_of C"
schirmer@12854
   559
text {* Note that in the case of an inherited member only the members of the
schirmer@12854
   560
direct superclass are concerned. If a member of a superclass of the direct
schirmer@12854
   561
superclass isn't inherited in the direct superclass (not member of the
schirmer@12854
   562
direct superclass) than it can't be a member of the class. E.g. If a
schirmer@12854
   563
member of a class A is defined with package access it isn't member of a 
schirmer@12854
   564
subclass S if S isn't in the same package as A. Any further subclasses 
schirmer@12854
   565
of S will not inherit the member, regardless if they are in the same
schirmer@12854
   566
package as A or not.*}
schirmer@12854
   567
schirmer@12854
   568
syntax
schirmer@12854
   569
method_member_of:: "prog \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   570
                           ("_ \<turnstile>Method _ member'_of _" [61,61,61] 60)
schirmer@12854
   571
schirmer@12854
   572
translations
schirmer@12854
   573
 "G\<turnstile>Method m member_of C" \<rightleftharpoons> "G\<turnstile>(methdMembr m) member_of C" 
schirmer@12854
   574
schirmer@12854
   575
syntax
schirmer@12854
   576
methd_member_of:: "prog \<Rightarrow> sig \<Rightarrow> (qtname \<times> methd) \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   577
                           ("_ \<turnstile>Methd _ _ member'_of _" [61,61,61,61] 60)
schirmer@12854
   578
schirmer@12854
   579
translations
schirmer@12854
   580
 "G\<turnstile>Methd s m member_of C" \<rightleftharpoons> "G\<turnstile>(method s m) member_of C" 
schirmer@12854
   581
schirmer@12854
   582
syntax
schirmer@12854
   583
fieldm_member_of:: "prog \<Rightarrow> vname \<Rightarrow> (qtname \<times> field) \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   584
                           ("_ \<turnstile>Field _  _ member'_of _" [61,61,61] 60)
schirmer@12854
   585
schirmer@12854
   586
translations
schirmer@12854
   587
 "G\<turnstile>Field n f member_of C" \<rightleftharpoons> "G\<turnstile>fieldm n f member_of C" 
schirmer@12854
   588
schirmer@12854
   589
constdefs
schirmer@12854
   590
inherits:: "prog \<Rightarrow> qtname \<Rightarrow> (qtname \<times> memberdecl) \<Rightarrow> bool"
schirmer@12854
   591
                           ("_ \<turnstile> _ inherits _" [61,61,61] 60)
schirmer@12854
   592
"G\<turnstile>C inherits m 
schirmer@12854
   593
  \<equiv> G\<turnstile>m inheritable_in (pid C) \<and> G\<turnstile>memberid m undeclared_in C \<and> 
schirmer@12854
   594
    (\<exists> S. G\<turnstile>C \<prec>\<^sub>C\<^sub>1 S \<and> G\<turnstile>(Class S) accessible_in (pid C) \<and> G\<turnstile>m member_of S)"
schirmer@12854
   595
schirmer@12854
   596
lemma inherits_member: "G\<turnstile>C inherits m \<Longrightarrow> G\<turnstile>m member_of C"
schirmer@12854
   597
by (auto simp add: inherits_def intro: members.Inherited)
schirmer@12854
   598
schirmer@12854
   599
schirmer@12854
   600
constdefs member_in::"prog \<Rightarrow> (qtname \<times> memberdecl) \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   601
                           ("_ \<turnstile> _ member'_in _" [61,61,61] 60)
schirmer@12854
   602
"G\<turnstile>m member_in C \<equiv> \<exists> provC. G\<turnstile> C \<preceq>\<^sub>C provC \<and> G \<turnstile> m member_of provC"
schirmer@12854
   603
text {* A member is in a class if it is member of the class or a superclass.
schirmer@12854
   604
If a member is in a class we can select this member. This additional notion
schirmer@12854
   605
is necessary since not all members are inherited to subclasses. So such
schirmer@12854
   606
members are not member-of the subclass but member-in the subclass.*}
schirmer@12854
   607
schirmer@12854
   608
syntax
schirmer@12854
   609
method_member_in:: "prog \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   610
                           ("_ \<turnstile>Method _ member'_in _" [61,61,61] 60)
schirmer@12854
   611
schirmer@12854
   612
translations
schirmer@12854
   613
 "G\<turnstile>Method m member_in C" \<rightleftharpoons> "G\<turnstile>(methdMembr m) member_in C" 
schirmer@12854
   614
schirmer@12854
   615
syntax
schirmer@12854
   616
methd_member_in:: "prog \<Rightarrow> sig \<Rightarrow> (qtname \<times> methd) \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   617
                           ("_ \<turnstile>Methd _ _ member'_in _" [61,61,61,61] 60)
schirmer@12854
   618
schirmer@12854
   619
translations
schirmer@12854
   620
 "G\<turnstile>Methd s m member_in C" \<rightleftharpoons> "G\<turnstile>(method s m) member_in C" 
schirmer@12854
   621
schirmer@12854
   622
consts stat_overridesR::
schirmer@12854
   623
  "prog  \<Rightarrow> ((qtname \<times> mdecl) \<times> (qtname \<times> mdecl)) set"
schirmer@12854
   624
schirmer@12854
   625
lemma member_inD: "G\<turnstile>m member_in C 
schirmer@12854
   626
 \<Longrightarrow> \<exists> provC. G\<turnstile> C \<preceq>\<^sub>C provC \<and> G \<turnstile> m member_of provC"
schirmer@12854
   627
by (auto simp add: member_in_def)
schirmer@12854
   628
schirmer@12854
   629
lemma member_inI: "\<lbrakk>G \<turnstile> m member_of provC;G\<turnstile> C \<preceq>\<^sub>C provC\<rbrakk> \<Longrightarrow>  G\<turnstile>m member_in C"
schirmer@12854
   630
by (auto simp add: member_in_def)
schirmer@12854
   631
schirmer@12854
   632
lemma member_of_to_member_in: "G \<turnstile> m member_of C \<Longrightarrow> G \<turnstile>m member_in C"
schirmer@12854
   633
by (auto intro: member_inI)
schirmer@12854
   634
schirmer@12854
   635
schirmer@12854
   636
subsubsection "overriding"
schirmer@12854
   637
schirmer@12854
   638
text {* Unfortunately the static notion of overriding (used during the
schirmer@12854
   639
typecheck of the compiler) and the dynamic notion of overriding (used during
schirmer@12854
   640
execution in the JVM) are not exactly the same. 
schirmer@12854
   641
*}
schirmer@12854
   642
schirmer@12854
   643
text {* Static overriding (used during the typecheck of the compiler) *}
schirmer@12854
   644
syntax
schirmer@12854
   645
stat_overrides:: "prog  \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> bool" 
schirmer@12854
   646
                                  ("_ \<turnstile> _ overrides\<^sub>S _" [61,61,61] 60)
schirmer@12854
   647
translations
schirmer@12854
   648
 "G\<turnstile>new overrides\<^sub>S  old" == "(new,old) \<in> stat_overridesR G "
schirmer@12854
   649
schirmer@12854
   650
inductive "stat_overridesR G" intros
schirmer@12854
   651
schirmer@12854
   652
Direct: "\<lbrakk>\<not> is_static new; msig new = msig old; 
schirmer@12854
   653
         G\<turnstile>Method new declared_in (declclass new);  
schirmer@12854
   654
         G\<turnstile>Method old declared_in (declclass old); 
schirmer@12854
   655
         G\<turnstile>Method old inheritable_in pid (declclass new);
schirmer@12854
   656
         G\<turnstile>(declclass new) \<prec>\<^sub>C\<^sub>1 superNew;
schirmer@12854
   657
         G \<turnstile>Method old member_of superNew
schirmer@12854
   658
         \<rbrakk> \<Longrightarrow> G\<turnstile>new overrides\<^sub>S old"
schirmer@12854
   659
schirmer@12854
   660
Indirect: "\<lbrakk>G\<turnstile>new overrides\<^sub>S inter; G\<turnstile>inter overrides\<^sub>S old\<rbrakk>
schirmer@12854
   661
           \<Longrightarrow> G\<turnstile>new overrides\<^sub>S old"
schirmer@12854
   662
schirmer@12854
   663
text {* Dynamic overriding (used during the typecheck of the compiler) *}
schirmer@12854
   664
consts overridesR::
schirmer@12854
   665
  "prog  \<Rightarrow> ((qtname \<times> mdecl) \<times> (qtname \<times> mdecl)) set"
schirmer@12854
   666
schirmer@12854
   667
schirmer@12854
   668
overrides:: "prog  \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> bool" 
schirmer@12854
   669
                                  ("_ \<turnstile> _ overrides _" [61,61,61] 60)
schirmer@12854
   670
translations
schirmer@12854
   671
 "G\<turnstile>new overrides old" == "(new,old) \<in> overridesR G "
schirmer@12854
   672
schirmer@12854
   673
inductive "overridesR G" intros
schirmer@12854
   674
schirmer@12854
   675
Direct: "\<lbrakk>\<not> is_static new; \<not> is_static old; accmodi new \<noteq> Private;
schirmer@12854
   676
         msig new = msig old; 
schirmer@12854
   677
         G\<turnstile>(declclass new) \<prec>\<^sub>C (declclass old);
schirmer@12854
   678
         G\<turnstile>Method new declared_in (declclass new);  
schirmer@12854
   679
         G\<turnstile>Method old declared_in (declclass old);    
schirmer@12854
   680
         G\<turnstile>Method old inheritable_in pid (declclass new);
schirmer@12854
   681
         G\<turnstile>resTy new \<preceq> resTy old
schirmer@12854
   682
         \<rbrakk> \<Longrightarrow> G\<turnstile>new overrides old"
schirmer@12854
   683
schirmer@12854
   684
Indirect: "\<lbrakk>G\<turnstile>new overrides inter; G\<turnstile>inter overrides old\<rbrakk>
schirmer@12854
   685
           \<Longrightarrow> G\<turnstile>new overrides old"
schirmer@12854
   686
schirmer@12854
   687
syntax
schirmer@12854
   688
sig_stat_overrides:: 
schirmer@12854
   689
 "prog  \<Rightarrow> sig \<Rightarrow> (qtname \<times> methd) \<Rightarrow> (qtname \<times> methd) \<Rightarrow> bool" 
schirmer@12854
   690
                                  ("_,_\<turnstile> _ overrides\<^sub>S _" [61,61,61,61] 60)
schirmer@12854
   691
translations
schirmer@12854
   692
 "G,s\<turnstile>new overrides\<^sub>S old" \<rightharpoonup> "G\<turnstile>(qmdecl s new) overrides\<^sub>S (qmdecl s old)" 
schirmer@12854
   693
schirmer@12854
   694
syntax
schirmer@12854
   695
sig_overrides:: "prog  \<Rightarrow> sig \<Rightarrow> (qtname \<times> methd) \<Rightarrow> (qtname \<times> methd) \<Rightarrow> bool" 
schirmer@12854
   696
                                  ("_,_\<turnstile> _ overrides _" [61,61,61,61] 60)
schirmer@12854
   697
translations
schirmer@12854
   698
 "G,s\<turnstile>new overrides old" \<rightharpoonup> "G\<turnstile>(qmdecl s new) overrides (qmdecl s old)" 
schirmer@12854
   699
schirmer@12854
   700
subsubsection "Hiding"
schirmer@12854
   701
schirmer@12854
   702
constdefs hides::
schirmer@12854
   703
"prog \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> bool" 
schirmer@12854
   704
                                ("_\<turnstile> _ hides _" [61,61,61] 60)
schirmer@12854
   705
"G\<turnstile>new hides old
schirmer@12854
   706
  \<equiv> is_static new \<and> msig new = msig old \<and>
schirmer@12854
   707
    G\<turnstile>(declclass new) \<prec>\<^sub>C (declclass old) \<and>
schirmer@12854
   708
    G\<turnstile>Method new declared_in (declclass new) \<and>
schirmer@12854
   709
    G\<turnstile>Method old declared_in (declclass old) \<and> 
schirmer@12854
   710
    G\<turnstile>Method old inheritable_in pid (declclass new)"
schirmer@12854
   711
schirmer@12854
   712
syntax
schirmer@12854
   713
sig_hides:: "prog  \<Rightarrow> sig \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> bool" 
schirmer@12854
   714
                                  ("_,_\<turnstile> _ hides _" [61,61,61,61] 60)
schirmer@12854
   715
translations
schirmer@12854
   716
 "G,s\<turnstile>new hides old" \<rightharpoonup> "G\<turnstile>(qmdecl s new) hides (qmdecl s old)" 
schirmer@12854
   717
schirmer@12854
   718
lemma hidesI:
schirmer@12854
   719
"\<lbrakk>is_static new; msig new = msig old;
schirmer@12854
   720
  G\<turnstile>(declclass new) \<prec>\<^sub>C (declclass old);
schirmer@12854
   721
  G\<turnstile>Method new declared_in (declclass new);
schirmer@12854
   722
  G\<turnstile>Method old declared_in (declclass old);
schirmer@12854
   723
  G\<turnstile>Method old inheritable_in pid (declclass new)
schirmer@12854
   724
 \<rbrakk> \<Longrightarrow> G\<turnstile>new hides old"
schirmer@12854
   725
by (auto simp add: hides_def)
schirmer@12854
   726
schirmer@12854
   727
lemma hidesD:
schirmer@12854
   728
"\<lbrakk>G\<turnstile>new hides old\<rbrakk> \<Longrightarrow>  
schirmer@12854
   729
  declclass new \<noteq> Object \<and> is_static new \<and> msig new = msig old \<and> 
schirmer@12854
   730
  G\<turnstile>(declclass new) \<prec>\<^sub>C (declclass old) \<and>
schirmer@12854
   731
  G\<turnstile>Method new declared_in (declclass new) \<and>   
schirmer@12854
   732
  G\<turnstile>Method old declared_in (declclass old)"
schirmer@12854
   733
by (auto simp add: hides_def)
schirmer@12854
   734
schirmer@12854
   735
lemma overrides_commonD:
schirmer@12854
   736
"\<lbrakk>G\<turnstile>new overrides old\<rbrakk> \<Longrightarrow>  
schirmer@12854
   737
  declclass new \<noteq> Object \<and> \<not> is_static new \<and> \<not> is_static old \<and>
schirmer@12854
   738
  accmodi new \<noteq> Private \<and> 
schirmer@12854
   739
  msig new = msig old  \<and>
schirmer@12854
   740
  G\<turnstile>(declclass new) \<prec>\<^sub>C (declclass old) \<and>
schirmer@12854
   741
  G\<turnstile>Method new declared_in (declclass new) \<and>   
schirmer@12854
   742
  G\<turnstile>Method old declared_in (declclass old)"
schirmer@12854
   743
by (induct set: overridesR) (auto intro: trancl_trans)
schirmer@12854
   744
schirmer@12854
   745
lemma ws_overrides_commonD:
schirmer@12854
   746
"\<lbrakk>G\<turnstile>new overrides old;ws_prog G\<rbrakk> \<Longrightarrow>  
schirmer@12854
   747
  declclass new \<noteq> Object \<and> \<not> is_static new \<and> \<not> is_static old \<and>
schirmer@12854
   748
  accmodi new \<noteq> Private \<and> G\<turnstile>resTy new \<preceq> resTy old \<and>
schirmer@12854
   749
  msig new = msig old  \<and>
schirmer@12854
   750
  G\<turnstile>(declclass new) \<prec>\<^sub>C (declclass old) \<and>
schirmer@12854
   751
  G\<turnstile>Method new declared_in (declclass new) \<and>   
schirmer@12854
   752
  G\<turnstile>Method old declared_in (declclass old)"
schirmer@12854
   753
by (induct set: overridesR) (auto intro: trancl_trans ws_widen_trans)
schirmer@12854
   754
schirmer@12854
   755
lemma overrides_eq_sigD: 
schirmer@12854
   756
 "\<lbrakk>G\<turnstile>new overrides old\<rbrakk> \<Longrightarrow> msig old=msig new"
schirmer@12854
   757
by (auto dest: overrides_commonD)
schirmer@12854
   758
schirmer@12854
   759
lemma hides_eq_sigD: 
schirmer@12854
   760
 "\<lbrakk>G\<turnstile>new hides old\<rbrakk> \<Longrightarrow> msig old=msig new"
schirmer@12854
   761
by (auto simp add: hides_def)
schirmer@12854
   762
schirmer@12854
   763
subsubsection "permits access" 
schirmer@12854
   764
constdefs 
schirmer@12854
   765
permits_acc:: 
schirmer@12854
   766
 "prog \<Rightarrow> (qtname \<times> memberdecl) \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@14030
   767
                   ("_ \<turnstile> _ in _ permits'_acc'_from _" [61,61,61,61] 60)
schirmer@12854
   768
schirmer@14030
   769
"G\<turnstile>membr in class permits_acc_from accclass 
schirmer@12854
   770
  \<equiv> (case (accmodi membr) of
schirmer@12854
   771
       Private   \<Rightarrow> (declclass membr = accclass)
schirmer@12854
   772
     | Package   \<Rightarrow> (pid (declclass membr) = pid accclass)
schirmer@12854
   773
     | Protected \<Rightarrow> (pid (declclass membr) = pid accclass)
schirmer@12854
   774
                    \<or>
schirmer@12925
   775
                    (G\<turnstile>accclass \<prec>\<^sub>C declclass membr 
schirmer@12925
   776
                     \<and> (G\<turnstile>class \<preceq>\<^sub>C accclass \<or> is_static membr)) 
schirmer@12854
   777
     | Public    \<Rightarrow> True)"
schirmer@12854
   778
text {*
schirmer@12854
   779
The subcondition of the @{term "Protected"} case: 
schirmer@12854
   780
@{term "G\<turnstile>accclass \<prec>\<^sub>C declclass membr"} could also be relaxed to:
schirmer@12854
   781
@{term "G\<turnstile>accclass \<preceq>\<^sub>C declclass membr"} since in case both classes are the
schirmer@12854
   782
same the other condition @{term "(pid (declclass membr) = pid accclass)"}
schirmer@12854
   783
holds anyway.
schirmer@12854
   784
*} 
schirmer@12854
   785
schirmer@12854
   786
text {* Like in case of overriding, the static and dynamic accessibility 
schirmer@12854
   787
of members is not uniform.
schirmer@12854
   788
\begin{itemize}
schirmer@12854
   789
\item Statically the class/interface of the member must be accessible for the
schirmer@12854
   790
      member to be accessible. During runtime this is not necessary. For
schirmer@12854
   791
      Example, if a class is accessible and we are allowed to access a member
schirmer@12854
   792
      of this class (statically) we expect that we can access this member in 
schirmer@12854
   793
      an arbitrary subclass (during runtime). It's not intended to restrict
schirmer@12854
   794
      the access to accessible subclasses during runtime.
schirmer@12854
   795
\item Statically the member we want to access must be "member of" the class.
schirmer@12854
   796
      Dynamically it must only be "member in" the class.
schirmer@12854
   797
\end{itemize} 
schirmer@12854
   798
*} 
schirmer@12854
   799
schirmer@12854
   800
schirmer@12854
   801
consts
schirmer@12854
   802
accessible_fromR:: 
schirmer@12854
   803
 "prog \<Rightarrow> qtname \<Rightarrow> ((qtname \<times> memberdecl) \<times>  qtname) set"
schirmer@12854
   804
schirmer@12854
   805
syntax 
schirmer@12854
   806
accessible_from:: 
schirmer@12854
   807
 "prog \<Rightarrow> (qtname \<times> memberdecl) \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   808
                   ("_ \<turnstile> _ of _ accessible'_from _" [61,61,61,61] 60)
schirmer@12854
   809
schirmer@12854
   810
translations
schirmer@12854
   811
"G\<turnstile>membr of cls accessible_from accclass"  
schirmer@12854
   812
 \<rightleftharpoons> "(membr,cls) \<in> accessible_fromR G accclass"
schirmer@12854
   813
schirmer@12854
   814
syntax 
schirmer@12854
   815
method_accessible_from:: 
schirmer@12854
   816
 "prog \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   817
                   ("_ \<turnstile>Method _ of _ accessible'_from _" [61,61,61,61] 60)
schirmer@12854
   818
schirmer@12854
   819
translations
schirmer@12854
   820
"G\<turnstile>Method m of cls accessible_from accclass"  
schirmer@12854
   821
 \<rightleftharpoons> "G\<turnstile>methdMembr m of cls accessible_from accclass"  
schirmer@12854
   822
schirmer@12854
   823
syntax 
schirmer@12854
   824
methd_accessible_from:: 
schirmer@12854
   825
 "prog \<Rightarrow> sig \<Rightarrow> (qtname \<times> methd) \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   826
                 ("_ \<turnstile>Methd _ _ of _ accessible'_from _" [61,61,61,61,61] 60)
schirmer@12854
   827
schirmer@12854
   828
translations
schirmer@12854
   829
"G\<turnstile>Methd s m of cls accessible_from accclass"  
schirmer@12854
   830
 \<rightleftharpoons> "G\<turnstile>(method s m) of cls accessible_from accclass"  
schirmer@12854
   831
schirmer@12854
   832
syntax 
schirmer@12854
   833
field_accessible_from:: 
schirmer@12854
   834
 "prog \<Rightarrow> vname \<Rightarrow> (qtname \<times> field) \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   835
                 ("_ \<turnstile>Field _  _ of _ accessible'_from _" [61,61,61,61,61] 60)
schirmer@12854
   836
schirmer@12854
   837
translations
schirmer@12854
   838
"G\<turnstile>Field fn f of C accessible_from accclass"  
schirmer@12854
   839
 \<rightleftharpoons> "G\<turnstile>(fieldm fn f) of C accessible_from accclass" 
schirmer@12854
   840
schirmer@12854
   841
inductive "accessible_fromR G accclass" intros
schirmer@12925
   842
Immediate:  "\<lbrakk>G\<turnstile>membr member_of class;
schirmer@12854
   843
              G\<turnstile>(Class class) accessible_in (pid accclass);
schirmer@14030
   844
              G\<turnstile>membr in class permits_acc_from accclass 
schirmer@12854
   845
             \<rbrakk> \<Longrightarrow> G\<turnstile>membr of class accessible_from accclass"
schirmer@12854
   846
schirmer@12925
   847
Overriding: "\<lbrakk>G\<turnstile>membr member_of class;
schirmer@12854
   848
              G\<turnstile>(Class class) accessible_in (pid accclass);
schirmer@12854
   849
              membr=(C,mdecl new);
schirmer@12854
   850
              G\<turnstile>(C,new) overrides\<^sub>S old; 
schirmer@12854
   851
              G\<turnstile>class \<prec>\<^sub>C sup;
schirmer@12854
   852
              G\<turnstile>Method old of sup accessible_from accclass
schirmer@12854
   853
             \<rbrakk>\<Longrightarrow> G\<turnstile>membr of class accessible_from accclass"
schirmer@12854
   854
schirmer@12854
   855
consts
schirmer@12854
   856
dyn_accessible_fromR:: 
schirmer@12854
   857
 "prog \<Rightarrow> qtname \<Rightarrow> ((qtname \<times> memberdecl) \<times>  qtname) set"
schirmer@12854
   858
schirmer@12854
   859
syntax 
schirmer@12854
   860
dyn_accessible_from:: 
schirmer@12854
   861
 "prog \<Rightarrow> (qtname \<times> memberdecl) \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   862
                   ("_ \<turnstile> _ in _ dyn'_accessible'_from _" [61,61,61,61] 60)
schirmer@12854
   863
schirmer@12854
   864
translations
schirmer@12854
   865
"G\<turnstile>membr in C dyn_accessible_from accC"  
schirmer@12854
   866
 \<rightleftharpoons> "(membr,C) \<in> dyn_accessible_fromR G accC"
schirmer@12854
   867
schirmer@12854
   868
syntax 
schirmer@12854
   869
method_dyn_accessible_from:: 
schirmer@12854
   870
 "prog \<Rightarrow> (qtname \<times> mdecl) \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   871
                 ("_ \<turnstile>Method _ in _ dyn'_accessible'_from _" [61,61,61,61] 60)
schirmer@12854
   872
schirmer@12854
   873
translations
schirmer@12854
   874
"G\<turnstile>Method m in C dyn_accessible_from accC"  
schirmer@12854
   875
 \<rightleftharpoons> "G\<turnstile>methdMembr m in C dyn_accessible_from accC"  
schirmer@12854
   876
schirmer@12854
   877
syntax 
schirmer@12854
   878
methd_dyn_accessible_from:: 
schirmer@12854
   879
 "prog \<Rightarrow> sig \<Rightarrow> (qtname \<times> methd) \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   880
             ("_ \<turnstile>Methd _ _ in _ dyn'_accessible'_from _" [61,61,61,61,61] 60)
schirmer@12854
   881
schirmer@12854
   882
translations
schirmer@12854
   883
"G\<turnstile>Methd s m in C dyn_accessible_from accC"  
schirmer@12854
   884
 \<rightleftharpoons> "G\<turnstile>(method s m) in C dyn_accessible_from accC"  
schirmer@12854
   885
schirmer@12854
   886
syntax 
schirmer@12854
   887
field_dyn_accessible_from:: 
schirmer@12854
   888
 "prog \<Rightarrow> vname \<Rightarrow> (qtname \<times> field) \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> bool"
schirmer@12854
   889
         ("_ \<turnstile>Field _ _ in _ dyn'_accessible'_from _" [61,61,61,61,61] 60)
schirmer@12854
   890
schirmer@12854
   891
translations
schirmer@12854
   892
"G\<turnstile>Field fn f in dynC dyn_accessible_from accC"  
schirmer@12854
   893
 \<rightleftharpoons> "G\<turnstile>(fieldm fn f) in dynC dyn_accessible_from accC"
schirmer@12854
   894
  
schirmer@12854
   895
inductive "dyn_accessible_fromR G accclass" intros
schirmer@12925
   896
Immediate:  "\<lbrakk>G\<turnstile>membr member_in class;
schirmer@14030
   897
              G\<turnstile>membr in class permits_acc_from accclass 
schirmer@12854
   898
             \<rbrakk> \<Longrightarrow> G\<turnstile>membr in class dyn_accessible_from accclass"
schirmer@12854
   899
schirmer@12925
   900
Overriding: "\<lbrakk>G\<turnstile>membr member_in class;
schirmer@12854
   901
              membr=(C,mdecl new);
schirmer@12854
   902
              G\<turnstile>(C,new) overrides old; 
schirmer@12854
   903
              G\<turnstile>class \<prec>\<^sub>C sup;
schirmer@12854
   904
              G\<turnstile>Method old in sup dyn_accessible_from accclass
schirmer@12854
   905
             \<rbrakk>\<Longrightarrow> G\<turnstile>membr in class dyn_accessible_from accclass"
schirmer@12854
   906
schirmer@12854
   907
schirmer@12854
   908
lemma accessible_from_commonD: "G\<turnstile>m of C accessible_from S
schirmer@12854
   909
 \<Longrightarrow> G\<turnstile>m member_of C \<and> G\<turnstile>(Class C) accessible_in (pid S)"
schirmer@12854
   910
by (auto elim: accessible_fromR.induct)
schirmer@12854
   911
schirmer@12925
   912
lemma unique_declaration: 
schirmer@12925
   913
 "\<lbrakk>G\<turnstile>m declared_in C;  G\<turnstile>n declared_in C; memberid m = memberid n \<rbrakk> 
schirmer@12925
   914
  \<Longrightarrow> m = n"
schirmer@12925
   915
apply (cases m)
schirmer@12925
   916
apply (cases n,
schirmer@12925
   917
        auto simp add: declared_in_def cdeclaredmethd_def cdeclaredfield_def)+
schirmer@12925
   918
done
schirmer@12925
   919
schirmer@12854
   920
lemma declared_not_undeclared:
schirmer@12854
   921
  "G\<turnstile>m declared_in C \<Longrightarrow> \<not> G\<turnstile> memberid m undeclared_in C"
schirmer@12854
   922
by (cases m) (auto simp add: declared_in_def undeclared_in_def)
schirmer@12854
   923
schirmer@12925
   924
lemma undeclared_not_declared:
schirmer@12925
   925
 "G\<turnstile> memberid m undeclared_in C \<Longrightarrow> \<not> G\<turnstile> m declared_in C" 
schirmer@12925
   926
by (cases m) (auto simp add: declared_in_def undeclared_in_def)
schirmer@12925
   927
schirmer@12854
   928
lemma not_undeclared_declared:
schirmer@12854
   929
  "\<not> G\<turnstile> membr_id undeclared_in C \<Longrightarrow> (\<exists> m. G\<turnstile>m declared_in C \<and> 
schirmer@12854
   930
                                           membr_id = memberid m)"
schirmer@12854
   931
proof -
schirmer@12854
   932
  assume not_undecl:"\<not> G\<turnstile> membr_id undeclared_in C"
schirmer@12854
   933
  show ?thesis (is "?P membr_id")
schirmer@12854
   934
  proof (cases membr_id)
schirmer@12854
   935
    case (fid vname)
schirmer@12854
   936
    with not_undecl
schirmer@12854
   937
    obtain fld where
schirmer@12854
   938
      "G\<turnstile>fdecl (vname,fld) declared_in C" 
schirmer@12854
   939
      by (auto simp add: undeclared_in_def declared_in_def
schirmer@12854
   940
                         cdeclaredfield_def)
schirmer@12854
   941
    with fid show ?thesis 
schirmer@12854
   942
      by auto
schirmer@12854
   943
  next
schirmer@12854
   944
    case (mid sig)
schirmer@12854
   945
    with not_undecl
schirmer@12854
   946
    obtain mthd where
schirmer@12854
   947
      "G\<turnstile>mdecl (sig,mthd) declared_in C" 
schirmer@12854
   948
      by (auto simp add: undeclared_in_def declared_in_def
schirmer@12854
   949
                         cdeclaredmethd_def)
schirmer@12854
   950
    with mid show ?thesis 
schirmer@12854
   951
      by auto
schirmer@12854
   952
  qed
schirmer@12854
   953
qed
schirmer@12854
   954
schirmer@12854
   955
lemma unique_declared_in:
schirmer@12854
   956
 "\<lbrakk>G\<turnstile>m declared_in C; G\<turnstile>n declared_in C; memberid m = memberid n\<rbrakk>
schirmer@12854
   957
 \<Longrightarrow> m = n"
schirmer@12854
   958
by (auto simp add: declared_in_def cdeclaredmethd_def cdeclaredfield_def
schirmer@12854
   959
            split: memberdecl.splits)
schirmer@12854
   960
schirmer@12854
   961
lemma unique_member_of: 
wenzelm@12937
   962
  assumes n: "G\<turnstile>n member_of C" and  
schirmer@12854
   963
          m: "G\<turnstile>m member_of C" and
schirmer@12854
   964
       eqid: "memberid n = memberid m"
wenzelm@12937
   965
  shows "n=m"
schirmer@12854
   966
proof -
schirmer@12854
   967
  from n m eqid  
schirmer@12854
   968
  show "n=m"
schirmer@12854
   969
  proof (induct)
schirmer@12854
   970
    case (Immediate C n)
schirmer@12854
   971
    assume member_n: "G\<turnstile> mbr n declared_in C" "declclass n = C"
schirmer@12854
   972
    assume eqid: "memberid n = memberid m"
schirmer@12854
   973
    assume "G \<turnstile> m member_of C"
schirmer@12854
   974
    then show "n=m"
schirmer@12854
   975
    proof (cases)
schirmer@12854
   976
      case (Immediate _ m')
schirmer@12854
   977
      with eqid 
schirmer@12854
   978
      have "m=m'"
schirmer@12854
   979
           "memberid n = memberid m" 
schirmer@12854
   980
           "G\<turnstile> mbr m declared_in C" 
schirmer@12854
   981
           "declclass m = C"
schirmer@12854
   982
	by auto
schirmer@12854
   983
      with member_n   
schirmer@12854
   984
      show ?thesis
schirmer@12854
   985
	by (cases n, cases m) 
schirmer@12854
   986
           (auto simp add: declared_in_def 
schirmer@12854
   987
                           cdeclaredmethd_def cdeclaredfield_def
schirmer@12854
   988
                    split: memberdecl.splits)
schirmer@12854
   989
    next
schirmer@12854
   990
      case (Inherited _ _ m')
schirmer@12854
   991
      then have "G\<turnstile> memberid m undeclared_in C"
schirmer@12854
   992
	by simp
schirmer@12854
   993
      with eqid member_n
schirmer@12854
   994
      show ?thesis
schirmer@12854
   995
	by (cases n) (auto dest: declared_not_undeclared)
schirmer@12854
   996
    qed
schirmer@12854
   997
  next
schirmer@12854
   998
    case (Inherited C S n)
schirmer@12854
   999
    assume undecl: "G\<turnstile> memberid n undeclared_in C"
schirmer@12854
  1000
    assume  super: "G\<turnstile>C\<prec>\<^sub>C\<^sub>1S"
schirmer@12854
  1001
    assume    hyp: "\<lbrakk>G \<turnstile> m member_of S; memberid n = memberid m\<rbrakk> \<Longrightarrow> n = m"
schirmer@12854
  1002
    assume   eqid: "memberid n = memberid m"
schirmer@12854
  1003
    assume "G \<turnstile> m member_of C"
schirmer@12854
  1004
    then show "n=m"
schirmer@12854
  1005
    proof (cases)
schirmer@12854
  1006
      case Immediate
schirmer@12854
  1007
      then have "G\<turnstile> mbr m declared_in C" by simp
schirmer@12854
  1008
      with eqid undecl
schirmer@12854
  1009
      show ?thesis
schirmer@12854
  1010
	by (cases m) (auto dest: declared_not_undeclared)
schirmer@12854
  1011
    next
schirmer@12854
  1012
      case Inherited 
schirmer@12854
  1013
      with super have "G \<turnstile> m member_of S"
schirmer@12854
  1014
	by (auto dest!: subcls1D)
schirmer@12854
  1015
      with eqid hyp
schirmer@12854
  1016
      show ?thesis 
schirmer@12854
  1017
	by blast
schirmer@12854
  1018
    qed
schirmer@12854
  1019
  qed
schirmer@12854
  1020
qed
schirmer@12854
  1021
schirmer@12854
  1022
lemma member_of_is_classD: "G\<turnstile>m member_of C \<Longrightarrow> is_class G C"
schirmer@12854
  1023
proof (induct set: members)
schirmer@12854
  1024
  case (Immediate C m)
schirmer@12854
  1025
  assume "G\<turnstile> mbr m declared_in C"
schirmer@12854
  1026
  then show "is_class G C"
schirmer@12854
  1027
    by (cases "mbr m")
schirmer@12854
  1028
       (auto simp add: declared_in_def cdeclaredmethd_def cdeclaredfield_def)
schirmer@12854
  1029
next
schirmer@12854
  1030
  case (Inherited C S m)  
schirmer@12854
  1031
  assume "G\<turnstile>C\<prec>\<^sub>C\<^sub>1S" and "is_class G S"
schirmer@12854
  1032
  then show "is_class G C"
schirmer@12854
  1033
    by - (rule subcls_is_class2,auto)
schirmer@12854
  1034
qed
schirmer@12854
  1035
schirmer@12854
  1036
lemma member_of_declC: 
schirmer@12854
  1037
 "G\<turnstile>m member_of C 
schirmer@12854
  1038
  \<Longrightarrow> G\<turnstile>mbr m declared_in (declclass m)"
schirmer@12854
  1039
by (induct set: members) auto
schirmer@12854
  1040
schirmer@12854
  1041
lemma member_of_member_of_declC:
schirmer@12854
  1042
 "G\<turnstile>m member_of C 
schirmer@12854
  1043
  \<Longrightarrow> G\<turnstile>m member_of (declclass m)"
schirmer@12854
  1044
by (auto dest: member_of_declC intro: members.Immediate)
schirmer@12854
  1045
schirmer@12854
  1046
lemma member_of_class_relation:
schirmer@12854
  1047
  "G\<turnstile>m member_of C \<Longrightarrow> G\<turnstile>C \<preceq>\<^sub>C declclass m"
schirmer@12854
  1048
proof (induct set: members)
schirmer@12854
  1049
  case (Immediate C m)
schirmer@12854
  1050
  then show "G\<turnstile>C \<preceq>\<^sub>C declclass m" by simp
schirmer@12854
  1051
next
schirmer@12854
  1052
  case (Inherited C S m)
schirmer@12854
  1053
  then show "G\<turnstile>C \<preceq>\<^sub>C declclass m" 
schirmer@12854
  1054
    by (auto dest: r_into_rtrancl intro: rtrancl_trans)
schirmer@12854
  1055
qed
schirmer@12854
  1056
schirmer@12854
  1057
lemma member_in_class_relation:
schirmer@12854
  1058
  "G\<turnstile>m member_in C \<Longrightarrow> G\<turnstile>C \<preceq>\<^sub>C declclass m"
schirmer@12854
  1059
by (auto dest: member_inD member_of_class_relation
schirmer@12854
  1060
        intro: rtrancl_trans)
schirmer@12854
  1061
schirmer@12962
  1062
lemma stat_override_declclasses_relation: 
schirmer@12962
  1063
"\<lbrakk>G\<turnstile>(declclass new) \<prec>\<^sub>C\<^sub>1 superNew; G \<turnstile>Method old member_of superNew \<rbrakk>
schirmer@12962
  1064
\<Longrightarrow> G\<turnstile>(declclass new) \<prec>\<^sub>C (declclass old)"
schirmer@12962
  1065
apply (rule trancl_rtrancl_trancl)
schirmer@12962
  1066
apply (erule r_into_trancl)
schirmer@12962
  1067
apply (cases old)
schirmer@12962
  1068
apply (auto dest: member_of_class_relation)
schirmer@12962
  1069
done
schirmer@12962
  1070
schirmer@12962
  1071
lemma stat_overrides_commonD:
schirmer@12962
  1072
"\<lbrakk>G\<turnstile>new overrides\<^sub>S old\<rbrakk> \<Longrightarrow>  
schirmer@12962
  1073
  declclass new \<noteq> Object \<and> \<not> is_static new \<and> msig new = msig old \<and> 
schirmer@12962
  1074
  G\<turnstile>(declclass new) \<prec>\<^sub>C (declclass old) \<and>
schirmer@12962
  1075
  G\<turnstile>Method new declared_in (declclass new) \<and>   
schirmer@12962
  1076
  G\<turnstile>Method old declared_in (declclass old)"
schirmer@12962
  1077
apply (induct set: stat_overridesR) 
schirmer@12962
  1078
apply (frule (1) stat_override_declclasses_relation) 
schirmer@12962
  1079
apply (auto intro: trancl_trans)
schirmer@12962
  1080
done
schirmer@12962
  1081
schirmer@12854
  1082
lemma member_of_Package: 
schirmer@12854
  1083
 "\<lbrakk>G\<turnstile>m member_of C; accmodi m = Package\<rbrakk> 
schirmer@12854
  1084
  \<Longrightarrow> pid (declclass m) = pid C" 
schirmer@12854
  1085
proof -
schirmer@12854
  1086
  assume   member: "G\<turnstile>m member_of C"
schirmer@12854
  1087
  then show " accmodi m = Package \<Longrightarrow> ?thesis" (is "PROP ?P m C")
schirmer@12854
  1088
  proof (induct rule: members.induct)
schirmer@12854
  1089
    fix C m
schirmer@12854
  1090
    assume     C: "declclass m = C"
schirmer@12854
  1091
    then show "pid (declclass m) = pid C"
schirmer@12854
  1092
      by simp
schirmer@12854
  1093
  next
schirmer@12854
  1094
    fix C S m  
schirmer@12854
  1095
    assume inheritable: "G \<turnstile> m inheritable_in pid C"
schirmer@12854
  1096
    assume         hyp: "PROP ?P m S" and
schirmer@12854
  1097
           package_acc: "accmodi m = Package" 
schirmer@12854
  1098
    with inheritable package_acc hyp
schirmer@12854
  1099
    show "pid (declclass m) = pid C" 
schirmer@12854
  1100
      by (auto simp add: inheritable_in_def)
schirmer@12854
  1101
  qed
schirmer@12854
  1102
qed
schirmer@12854
  1103
schirmer@12925
  1104
lemma member_in_declC: "G\<turnstile>m member_in C\<Longrightarrow> G\<turnstile>m member_in (declclass m)"
schirmer@12925
  1105
proof -
schirmer@12925
  1106
  assume member_in_C:  "G\<turnstile>m member_in C"
schirmer@12925
  1107
  from member_in_C
schirmer@12925
  1108
  obtain provC where
schirmer@12925
  1109
    subclseq_C_provC: "G\<turnstile> C \<preceq>\<^sub>C provC" and
schirmer@12925
  1110
     member_of_provC: "G \<turnstile> m member_of provC"
schirmer@12925
  1111
    by (auto simp add: member_in_def)
schirmer@12925
  1112
  from member_of_provC
schirmer@12925
  1113
  have "G \<turnstile> m member_of declclass m"
schirmer@12925
  1114
    by (rule member_of_member_of_declC)
schirmer@12925
  1115
  moreover
schirmer@12925
  1116
  from member_in_C
schirmer@12925
  1117
  have "G\<turnstile>C \<preceq>\<^sub>C declclass m"
schirmer@12925
  1118
    by (rule member_in_class_relation)
schirmer@12925
  1119
  ultimately
schirmer@12925
  1120
  show ?thesis
schirmer@12925
  1121
    by (auto simp add: member_in_def)
schirmer@12925
  1122
qed
schirmer@12925
  1123
schirmer@12854
  1124
lemma dyn_accessible_from_commonD: "G\<turnstile>m in C dyn_accessible_from S
schirmer@12854
  1125
 \<Longrightarrow> G\<turnstile>m member_in C"
schirmer@12854
  1126
by (auto elim: dyn_accessible_fromR.induct)
schirmer@12854
  1127
schirmer@12854
  1128
lemma no_Private_stat_override: 
schirmer@12854
  1129
 "\<lbrakk>G\<turnstile>new overrides\<^sub>S old\<rbrakk> \<Longrightarrow> accmodi old \<noteq> Private"
schirmer@12854
  1130
by (induct set:  stat_overridesR) (auto simp add: inheritable_in_def)
schirmer@12854
  1131
schirmer@12854
  1132
lemma no_Private_override: "\<lbrakk>G\<turnstile>new overrides old\<rbrakk> \<Longrightarrow> accmodi old \<noteq> Private"
schirmer@12854
  1133
by (induct set: overridesR) (auto simp add: inheritable_in_def)
schirmer@12854
  1134
schirmer@12854
  1135
lemma permits_acc_inheritance:
schirmer@14030
  1136
 "\<lbrakk>G\<turnstile>m in statC permits_acc_from accC; G\<turnstile>dynC \<preceq>\<^sub>C statC
schirmer@14030
  1137
  \<rbrakk> \<Longrightarrow> G\<turnstile>m in dynC permits_acc_from accC"
schirmer@12854
  1138
by (cases "accmodi m")
schirmer@12854
  1139
   (auto simp add: permits_acc_def
schirmer@12854
  1140
            intro: subclseq_trans) 
schirmer@12854
  1141
schirmer@12925
  1142
lemma permits_acc_static_declC:
schirmer@14030
  1143
 "\<lbrakk>G\<turnstile>m in C permits_acc_from accC; G\<turnstile>m member_in C; is_static m
schirmer@14030
  1144
  \<rbrakk> \<Longrightarrow> G\<turnstile>m in (declclass m) permits_acc_from accC"
schirmer@12925
  1145
by (cases "accmodi m") (auto simp add: permits_acc_def)
schirmer@12925
  1146
schirmer@12925
  1147
lemma dyn_accessible_from_static_declC: 
wenzelm@12937
  1148
  assumes  acc_C: "G\<turnstile>m in C dyn_accessible_from accC" and
schirmer@12925
  1149
           static: "is_static m"
wenzelm@12937
  1150
  shows "G\<turnstile>m in (declclass m) dyn_accessible_from accC"
schirmer@12925
  1151
proof -
schirmer@12925
  1152
  from acc_C static
schirmer@12925
  1153
  show "G\<turnstile>m in (declclass m) dyn_accessible_from accC"
schirmer@12925
  1154
  proof (induct)
schirmer@12925
  1155
    case (Immediate C m)
schirmer@12925
  1156
    then show ?case 
schirmer@12925
  1157
      by (auto intro!: dyn_accessible_fromR.Immediate
schirmer@12925
  1158
                 dest: member_in_declC permits_acc_static_declC) 
schirmer@12925
  1159
  next 
schirmer@12925
  1160
    case (Overriding declCNew C m new old sup)
schirmer@12925
  1161
    then have "\<not> is_static m"
schirmer@12925
  1162
      by (auto dest: overrides_commonD)
schirmer@12925
  1163
    moreover
schirmer@12925
  1164
    assume "is_static m"
schirmer@12925
  1165
    ultimately show ?case 
schirmer@12925
  1166
      by contradiction
schirmer@12925
  1167
  qed
schirmer@12925
  1168
qed
schirmer@12925
  1169
schirmer@12854
  1170
lemma field_accessible_fromD:
schirmer@12854
  1171
 "\<lbrakk>G\<turnstile>membr of C accessible_from accC;is_field membr\<rbrakk> 
schirmer@12854
  1172
  \<Longrightarrow> G\<turnstile>membr member_of C \<and>
schirmer@12854
  1173
      G\<turnstile>(Class C) accessible_in (pid accC) \<and>
schirmer@14030
  1174
      G\<turnstile>membr in C permits_acc_from accC"
schirmer@12854
  1175
by (cases set: accessible_fromR)
schirmer@12854
  1176
   (auto simp add: is_field_def split: memberdecl.splits) 
schirmer@12854
  1177
schirmer@12854
  1178
lemma field_accessible_from_permits_acc_inheritance:
schirmer@12854
  1179
"\<lbrakk>G\<turnstile>membr of statC accessible_from accC; is_field membr; G \<turnstile> dynC \<preceq>\<^sub>C statC\<rbrakk>
schirmer@14030
  1180
\<Longrightarrow> G\<turnstile>membr in dynC permits_acc_from accC"
schirmer@12854
  1181
by (auto dest: field_accessible_fromD intro: permits_acc_inheritance)
schirmer@12854
  1182
schirmer@12854
  1183
schirmer@12854
  1184
(*
schirmer@12854
  1185
lemma accessible_Package:
schirmer@12854
  1186
 "\<lbrakk>G \<turnstile> m of C accessible_from S;accmodi m = Package;
schirmer@12854
  1187
   \<And> new old. G\<turnstile>new overrides\<^sub>S old \<Longrightarrow> accmodi old \<le> accmodi new\<rbrakk>
schirmer@12854
  1188
  \<Longrightarrow> pid S = pid C \<and> pid C = pid (declclass m)"
schirmer@12854
  1189
proof -
schirmer@12854
  1190
  assume wf: "\<And> new old. G\<turnstile>new overrides\<^sub>S old \<Longrightarrow> accmodi old \<le> accmodi new"
schirmer@12854
  1191
  assume "G \<turnstile> m of C accessible_from S"
schirmer@12854
  1192
  then show "accmodi m = Package \<Longrightarrow> pid S = pid C \<and> pid C = pid (declclass m)"
schirmer@12854
  1193
    (is "?Pack m \<Longrightarrow> ?P C m")
schirmer@12854
  1194
  proof (induct rule: accessible_fromR.induct)
schirmer@12854
  1195
    fix C m
schirmer@12854
  1196
    assume "G\<turnstile>m member_of C"
schirmer@14030
  1197
           "G \<turnstile> m in C permits_acc_from S"
schirmer@12854
  1198
           "accmodi m = Package"      
schirmer@12854
  1199
    then show "?P C m"
schirmer@12854
  1200
      by (auto dest: member_of_Package simp add: permits_acc_def)
schirmer@12854
  1201
  next
schirmer@12854
  1202
    fix declC C new newm old Sup
schirmer@12854
  1203
    assume member_new: "G \<turnstile> new member_of C" and 
schirmer@12854
  1204
                acc_C: "G \<turnstile> Class C accessible_in pid S" and
schirmer@12854
  1205
                  new: "new = (declC, mdecl newm)" and
schirmer@12854
  1206
             override: "G \<turnstile> (declC, newm) overrides\<^sub>S old" and
schirmer@12854
  1207
         subcls_C_Sup: "G\<turnstile>C \<prec>\<^sub>C Sup" and
schirmer@12854
  1208
              acc_old: "G \<turnstile> methdMembr old of Sup accessible_from S" and
schirmer@12854
  1209
                  hyp: "?Pack (methdMembr old) \<Longrightarrow> ?P Sup (methdMembr old)" and
schirmer@12854
  1210
          accmodi_new: "accmodi new = Package"
schirmer@12854
  1211
    from override wf 
schirmer@12854
  1212
    have accmodi_weaken: "accmodi old \<le> accmodi newm"
schirmer@12854
  1213
      by (cases old,cases newm) auto
schirmer@12854
  1214
    from override new
schirmer@12854
  1215
    have "accmodi old \<noteq> Private"
schirmer@12854
  1216
      by (simp add: no_Private_stat_override)
schirmer@12854
  1217
    with accmodi_weaken accmodi_new new
schirmer@12854
  1218
    have accmodi_old: "accmodi old = Package"
schirmer@12854
  1219
      by (cases "accmodi old") (auto simp add: le_acc_def less_acc_def) 
schirmer@12854
  1220
    with hyp 
schirmer@12854
  1221
    have P_sup: "?P Sup (methdMembr old)"
schirmer@12854
  1222
      by (simp)
schirmer@12854
  1223
    from wf override new accmodi_old accmodi_new
schirmer@12854
  1224
    have eq_pid_new_old: "pid (declclass new) = pid (declclass old)"
schirmer@12854
  1225
      by (auto dest: stat_override_Package) 
schirmer@12854
  1226
    from member_new accmodi_new
schirmer@12854
  1227
    have "pid (declclass new) = pid C"
schirmer@12854
  1228
      by (auto dest: member_of_Package)
schirmer@12854
  1229
    with eq_pid_new_old P_sup show "?P C new"
schirmer@12854
  1230
      by auto
schirmer@12854
  1231
  qed
schirmer@12854
  1232
qed
schirmer@12854
  1233
*)
schirmer@13688
  1234
schirmer@12854
  1235
lemma accessible_fieldD: 
schirmer@12854
  1236
 "\<lbrakk>G\<turnstile>membr of C accessible_from accC; is_field membr\<rbrakk>
schirmer@12854
  1237
 \<Longrightarrow> G\<turnstile>membr member_of C \<and>
schirmer@12854
  1238
     G\<turnstile>(Class C) accessible_in (pid accC) \<and>
schirmer@14030
  1239
     G\<turnstile>membr in C permits_acc_from accC"
schirmer@12854
  1240
by (induct rule: accessible_fromR.induct) (auto dest: is_fieldD)
schirmer@12854
  1241
      
schirmer@12854
  1242
schirmer@12854
  1243
schirmer@12854
  1244
lemma member_of_Private:
schirmer@12854
  1245
"\<lbrakk>G\<turnstile>m member_of C; accmodi m = Private\<rbrakk> \<Longrightarrow> declclass m = C"
schirmer@12854
  1246
by (induct set: members) (auto simp add: inheritable_in_def)
schirmer@12854
  1247
schirmer@12854
  1248
lemma member_of_subclseq_declC:
schirmer@12854
  1249
  "G\<turnstile>m member_of C \<Longrightarrow> G\<turnstile>C \<preceq>\<^sub>C declclass m"
schirmer@12854
  1250
by (induct set: members) (auto dest: r_into_rtrancl intro: rtrancl_trans)
schirmer@12854
  1251
schirmer@12854
  1252
lemma member_of_inheritance:
wenzelm@12937
  1253
  assumes       m: "G\<turnstile>m member_of D" and
schirmer@12854
  1254
     subclseq_D_C: "G\<turnstile>D \<preceq>\<^sub>C C" and
schirmer@12854
  1255
     subclseq_C_m: "G\<turnstile>C \<preceq>\<^sub>C declclass m" and
schirmer@12854
  1256
               ws: "ws_prog G" 
wenzelm@12937
  1257
  shows "G\<turnstile>m member_of C"
schirmer@12854
  1258
proof -
schirmer@12854
  1259
  from m subclseq_D_C subclseq_C_m
schirmer@12854
  1260
  show ?thesis
schirmer@12854
  1261
  proof (induct)
schirmer@12854
  1262
    case (Immediate D m)
schirmer@12854
  1263
    assume "declclass m = D" and
schirmer@12854
  1264
           "G\<turnstile>D\<preceq>\<^sub>C C" and "G\<turnstile>C\<preceq>\<^sub>C declclass m"
schirmer@12854
  1265
    with ws have "D=C" 
schirmer@12854
  1266
      by (auto intro: subclseq_acyclic)
schirmer@12854
  1267
    with Immediate 
schirmer@12854
  1268
    show "G\<turnstile>m member_of C"
schirmer@12854
  1269
      by (auto intro: members.Immediate)
schirmer@12854
  1270
  next
schirmer@12854
  1271
    case (Inherited D S m)
schirmer@12854
  1272
    assume member_of_D_props: 
schirmer@12854
  1273
            "G \<turnstile> m inheritable_in pid D" 
schirmer@12854
  1274
            "G\<turnstile> memberid m undeclared_in D"  
schirmer@12854
  1275
            "G \<turnstile> Class S accessible_in pid D" 
schirmer@12854
  1276
            "G \<turnstile> m member_of S"
schirmer@12854
  1277
    assume super: "G\<turnstile>D\<prec>\<^sub>C\<^sub>1S"
schirmer@12854
  1278
    assume hyp: "\<lbrakk>G\<turnstile>S\<preceq>\<^sub>C C; G\<turnstile>C\<preceq>\<^sub>C declclass m\<rbrakk> \<Longrightarrow> G \<turnstile> m member_of C"
schirmer@12854
  1279
    assume subclseq_C_m: "G\<turnstile>C\<preceq>\<^sub>C declclass m"
schirmer@12854
  1280
    assume "G\<turnstile>D\<preceq>\<^sub>C C"
schirmer@12854
  1281
    then show "G\<turnstile>m member_of C"
schirmer@12854
  1282
    proof (cases rule: subclseq_cases)
schirmer@12854
  1283
      case Eq
schirmer@12854
  1284
      assume "D=C" 
schirmer@12854
  1285
      with super member_of_D_props 
schirmer@12854
  1286
      show ?thesis
schirmer@12854
  1287
	by (auto intro: members.Inherited)
schirmer@12854
  1288
    next
schirmer@12854
  1289
      case Subcls
schirmer@12854
  1290
      assume "G\<turnstile>D\<prec>\<^sub>C C"
schirmer@12854
  1291
      with super 
schirmer@12854
  1292
      have "G\<turnstile>S\<preceq>\<^sub>C C"
schirmer@12854
  1293
	by (auto dest: subcls1D subcls_superD)
schirmer@12854
  1294
      with subclseq_C_m hyp show ?thesis
schirmer@12854
  1295
	by blast
schirmer@12854
  1296
    qed
schirmer@12854
  1297
  qed
schirmer@12854
  1298
qed
schirmer@12854
  1299
schirmer@12854
  1300
lemma member_of_subcls:
wenzelm@12937
  1301
  assumes     old: "G\<turnstile>old member_of C" and 
schirmer@12854
  1302
              new: "G\<turnstile>new member_of D" and
schirmer@12854
  1303
             eqid: "memberid new = memberid old" and
schirmer@12854
  1304
     subclseq_D_C: "G\<turnstile>D \<preceq>\<^sub>C C" and 
schirmer@12854
  1305
   subcls_new_old: "G\<turnstile>declclass new \<prec>\<^sub>C declclass old" and
schirmer@12854
  1306
               ws: "ws_prog G"
wenzelm@12937
  1307
  shows "G\<turnstile>D \<prec>\<^sub>C C"
schirmer@12854
  1308
proof -
schirmer@12854
  1309
  from old 
schirmer@12854
  1310
  have subclseq_C_old: "G\<turnstile>C \<preceq>\<^sub>C declclass old"
schirmer@12854
  1311
    by (auto dest: member_of_subclseq_declC)
schirmer@12854
  1312
  from new 
schirmer@12854
  1313
  have subclseq_D_new: "G\<turnstile>D \<preceq>\<^sub>C declclass new"
schirmer@12854
  1314
    by (auto dest: member_of_subclseq_declC)
schirmer@12854
  1315
  from subcls_new_old ws
schirmer@12854
  1316
  have neq_new_old: "new\<noteq>old"
schirmer@12854
  1317
    by (cases new,cases old) (auto dest: subcls_irrefl)
schirmer@12854
  1318
  from subclseq_D_new subclseq_D_C
schirmer@12854
  1319
  have "G\<turnstile>(declclass new) \<preceq>\<^sub>C C \<or> G\<turnstile>C \<preceq>\<^sub>C (declclass new)" 
schirmer@12854
  1320
    by (rule subcls_compareable)
schirmer@12854
  1321
  then have "G\<turnstile>(declclass new) \<preceq>\<^sub>C C"
schirmer@12854
  1322
  proof
schirmer@12854
  1323
    assume "G\<turnstile>declclass new\<preceq>\<^sub>C C" then show ?thesis .
schirmer@12854
  1324
  next
schirmer@12854
  1325
    assume "G\<turnstile>C \<preceq>\<^sub>C (declclass new)"
schirmer@12854
  1326
    with new subclseq_D_C ws 
schirmer@12854
  1327
    have "G\<turnstile>new member_of C"
schirmer@12854
  1328
      by (blast intro: member_of_inheritance)
schirmer@12854
  1329
    with eqid old 
schirmer@12854
  1330
    have "new=old"
schirmer@12854
  1331
      by (blast intro: unique_member_of)
schirmer@12854
  1332
    with neq_new_old 
schirmer@12854
  1333
    show ?thesis
schirmer@12854
  1334
      by contradiction
schirmer@12854
  1335
  qed
schirmer@12854
  1336
  then show ?thesis
schirmer@12854
  1337
  proof (cases rule: subclseq_cases)
schirmer@12854
  1338
    case Eq
schirmer@12854
  1339
    assume "declclass new = C"
schirmer@12854
  1340
    with new have "G\<turnstile>new member_of C"
schirmer@12854
  1341
      by (auto dest: member_of_member_of_declC)
schirmer@12854
  1342
    with eqid old 
schirmer@12854
  1343
    have "new=old"
schirmer@12854
  1344
      by (blast intro: unique_member_of)
schirmer@12854
  1345
    with neq_new_old 
schirmer@12854
  1346
    show ?thesis
schirmer@12854
  1347
      by contradiction
schirmer@12854
  1348
  next
schirmer@12854
  1349
    case Subcls
schirmer@12854
  1350
    assume "G\<turnstile>declclass new\<prec>\<^sub>C C"
schirmer@12854
  1351
    with subclseq_D_new
schirmer@12854
  1352
    show "G\<turnstile>D\<prec>\<^sub>C C"
schirmer@12854
  1353
      by (rule rtrancl_trancl_trancl)
schirmer@12854
  1354
  qed
schirmer@12854
  1355
qed
schirmer@12854
  1356
schirmer@12854
  1357
corollary member_of_overrides_subcls:
schirmer@12854
  1358
 "\<lbrakk>G\<turnstile>Methd sig old member_of C; G\<turnstile>Methd sig new member_of D;G\<turnstile>D \<preceq>\<^sub>C C;
schirmer@12854
  1359
   G,sig\<turnstile>new overrides old; ws_prog G\<rbrakk>
schirmer@12854
  1360
 \<Longrightarrow> G\<turnstile>D \<prec>\<^sub>C C"
schirmer@12854
  1361
by (drule overrides_commonD) (auto intro: member_of_subcls)    
schirmer@12854
  1362
schirmer@12854
  1363
corollary member_of_stat_overrides_subcls:
schirmer@12854
  1364
 "\<lbrakk>G\<turnstile>Methd sig old member_of C; G\<turnstile>Methd sig new member_of D;G\<turnstile>D \<preceq>\<^sub>C C;
schirmer@12854
  1365
   G,sig\<turnstile>new overrides\<^sub>S old; ws_prog G\<rbrakk>
schirmer@12854
  1366
 \<Longrightarrow> G\<turnstile>D \<prec>\<^sub>C C"
schirmer@12854
  1367
by (drule stat_overrides_commonD) (auto intro: member_of_subcls)    
schirmer@12854
  1368
schirmer@12854
  1369
schirmer@12854
  1370
schirmer@12854
  1371
lemma inherited_field_access: 
wenzelm@12937
  1372
  assumes stat_acc: "G\<turnstile>membr of statC accessible_from accC" and
schirmer@12854
  1373
          is_field: "is_field membr" and 
schirmer@12854
  1374
          subclseq: "G \<turnstile> dynC \<preceq>\<^sub>C statC"
wenzelm@12937
  1375
  shows "G\<turnstile>membr in dynC dyn_accessible_from accC"
schirmer@12854
  1376
proof -
schirmer@12854
  1377
  from stat_acc is_field subclseq 
schirmer@12854
  1378
  show ?thesis
schirmer@12854
  1379
    by (auto dest: accessible_fieldD 
schirmer@12925
  1380
            intro: dyn_accessible_fromR.Immediate 
schirmer@12854
  1381
                   member_inI 
schirmer@12854
  1382
                   permits_acc_inheritance)
schirmer@12854
  1383
qed
schirmer@12854
  1384
schirmer@12854
  1385
lemma accessible_inheritance:
wenzelm@12937
  1386
  assumes stat_acc: "G\<turnstile>m of statC accessible_from accC" and
schirmer@12854
  1387
          subclseq: "G\<turnstile>dynC \<preceq>\<^sub>C statC" and
schirmer@12854
  1388
       member_dynC: "G\<turnstile>m member_of dynC" and
schirmer@12854
  1389
          dynC_acc: "G\<turnstile>(Class dynC) accessible_in (pid accC)"
wenzelm@12937
  1390
  shows "G\<turnstile>m of dynC accessible_from accC"
schirmer@12854
  1391
proof -
schirmer@12854
  1392
  from stat_acc
schirmer@12854
  1393
  have member_statC: "G\<turnstile>m member_of statC" 
schirmer@12854
  1394
    by (auto dest: accessible_from_commonD)
schirmer@12854
  1395
  from stat_acc
schirmer@12854
  1396
  show ?thesis
schirmer@12854
  1397
  proof (cases)
schirmer@12925
  1398
    case Immediate
schirmer@12854
  1399
    with member_dynC member_statC subclseq dynC_acc
schirmer@12854
  1400
    show ?thesis
schirmer@12925
  1401
      by (auto intro: accessible_fromR.Immediate permits_acc_inheritance)
schirmer@12854
  1402
  next
schirmer@12925
  1403
    case Overriding
schirmer@12854
  1404
    with member_dynC subclseq dynC_acc
schirmer@12854
  1405
    show ?thesis
schirmer@12925
  1406
      by (auto intro: accessible_fromR.Overriding rtrancl_trancl_trancl)
schirmer@12854
  1407
  qed
schirmer@12854
  1408
qed
schirmer@12854
  1409
schirmer@12854
  1410
section "fields and methods"
schirmer@12854
  1411
schirmer@12854
  1412
schirmer@12854
  1413
types
schirmer@12854
  1414
  fspec = "vname \<times> qtname"
schirmer@12854
  1415
schirmer@12854
  1416
translations 
schirmer@12854
  1417
  "fspec" <= (type) "vname \<times> qtname" 
schirmer@12854
  1418
schirmer@12854
  1419
constdefs
schirmer@12854
  1420
imethds:: "prog \<Rightarrow> qtname \<Rightarrow> (sig,qtname \<times> mhead) tables"
schirmer@12854
  1421
"imethds G I 
schirmer@12854
  1422
  \<equiv> iface_rec (G,I)  
schirmer@12854
  1423
              (\<lambda>I i ts. (Un_tables ts) \<oplus>\<oplus> 
schirmer@12854
  1424
                        (o2s \<circ> table_of (map (\<lambda>(s,m). (s,I,m)) (imethods i))))"
schirmer@12854
  1425
text {* methods of an interface, with overriding and inheritance, cf. 9.2 *}
schirmer@12854
  1426
schirmer@12854
  1427
constdefs
schirmer@12854
  1428
accimethds:: "prog \<Rightarrow> pname \<Rightarrow> qtname \<Rightarrow> (sig,qtname \<times> mhead) tables"
schirmer@12854
  1429
"accimethds G pack I
schirmer@12854
  1430
  \<equiv> if G\<turnstile>Iface I accessible_in pack 
schirmer@12854
  1431
       then imethds G I
schirmer@12854
  1432
       else \<lambda> k. {}"
schirmer@12854
  1433
text {* only returns imethds if the interface is accessible *}
schirmer@12854
  1434
schirmer@12854
  1435
constdefs
schirmer@12854
  1436
methd:: "prog \<Rightarrow> qtname  \<Rightarrow> (sig,qtname \<times> methd) table"
schirmer@12854
  1437
schirmer@12854
  1438
"methd G C 
schirmer@12854
  1439
 \<equiv> class_rec (G,C) empty
schirmer@12854
  1440
             (\<lambda>C c subcls_mthds. 
schirmer@12854
  1441
               filter_tab (\<lambda>sig m. G\<turnstile>C inherits method sig m)
schirmer@12854
  1442
                          subcls_mthds 
schirmer@12854
  1443
               ++ 
schirmer@12854
  1444
               table_of (map (\<lambda>(s,m). (s,C,m)) (methods c)))"
schirmer@12854
  1445
text {* @{term "methd G C"}: methods of a class C (statically visible from C), 
schirmer@12854
  1446
     with inheritance and hiding cf. 8.4.6;
schirmer@12854
  1447
     Overriding is captured by @{text dynmethd}.
schirmer@12854
  1448
     Every new method with the same signature coalesces the
schirmer@12854
  1449
     method of a superclass. *}
schirmer@12854
  1450
schirmer@12854
  1451
constdefs                      
schirmer@12854
  1452
accmethd:: "prog \<Rightarrow> qtname \<Rightarrow> qtname  \<Rightarrow> (sig,qtname \<times> methd) table"
schirmer@12854
  1453
"accmethd G S C 
schirmer@12854
  1454
 \<equiv> filter_tab (\<lambda>sig m. G\<turnstile>method sig m of C accessible_from S) 
schirmer@12854
  1455
              (methd G C)"
schirmer@12854
  1456
text {* @{term "accmethd G S C"}: only those methods of @{term "methd G C"}, 
schirmer@12854
  1457
        accessible from S *}
schirmer@12854
  1458
schirmer@12854
  1459
text {* Note the class component in the accessibility filter. The class where
schirmer@12854
  1460
    method @{term m} is declared (@{term declC}) isn't necessarily accessible 
schirmer@12854
  1461
    from the current scope @{term S}. The method can be made accessible 
schirmer@12854
  1462
    through inheritance, too.
schirmer@12854
  1463
    So we must test accessibility of method @{term m} of class @{term C} 
schirmer@12854
  1464
    (not @{term "declclass m"}) *}
schirmer@12854
  1465
schirmer@12854
  1466
constdefs 
schirmer@12854
  1467
dynmethd:: "prog  \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> (sig,qtname \<times> methd) table"
schirmer@12854
  1468
"dynmethd G statC dynC  
schirmer@12854
  1469
  \<equiv> \<lambda> sig. 
schirmer@12854
  1470
     (if G\<turnstile>dynC \<preceq>\<^sub>C statC
schirmer@12854
  1471
        then (case methd G statC sig of
schirmer@12854
  1472
                None \<Rightarrow> None
schirmer@12854
  1473
              | Some statM 
schirmer@12854
  1474
                  \<Rightarrow> (class_rec (G,dynC) empty
schirmer@12854
  1475
                       (\<lambda>C c subcls_mthds. 
schirmer@12854
  1476
                          subcls_mthds
schirmer@12854
  1477
                          ++
schirmer@12854
  1478
                          (filter_tab 
schirmer@12854
  1479
                            (\<lambda> _ dynM. G,sig\<turnstile>dynM overrides statM \<or> dynM=statM)
schirmer@12854
  1480
                            (methd G C) ))
schirmer@12854
  1481
                      ) sig
schirmer@12854
  1482
              )
schirmer@12854
  1483
        else None)"
schirmer@13688
  1484
schirmer@12854
  1485
text {* @{term "dynmethd G statC dynC"}: dynamic method lookup of a reference 
schirmer@12854
  1486
        with dynamic class @{term dynC} and static class @{term statC} *}
schirmer@12854
  1487
text {* Note some kind of duality between @{term methd} and @{term dynmethd} 
schirmer@12854
  1488
        in the @{term class_rec} arguments. Whereas @{term methd} filters the 
schirmer@12854
  1489
        subclass methods (to get only the inherited ones), @{term dynmethd} 
schirmer@12854
  1490
        filters the new methods (to get only those methods which actually
schirmer@12854
  1491
        override the methods of the static class) *}
schirmer@12854
  1492
schirmer@12854
  1493
constdefs 
schirmer@12854
  1494
dynimethd:: "prog \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> (sig,qtname \<times> methd) table"
schirmer@12854
  1495
"dynimethd G I dynC 
schirmer@12854
  1496
  \<equiv> \<lambda> sig. if imethds G I sig \<noteq> {}
schirmer@12854
  1497
               then methd G dynC sig
schirmer@12854
  1498
               else dynmethd G Object dynC sig"
schirmer@12854
  1499
text {* @{term "dynimethd G I dynC"}: dynamic method lookup of a reference with 
schirmer@12854
  1500
        dynamic class dynC and static interface type I *}
schirmer@12854
  1501
text {* 
schirmer@12854
  1502
   When calling an interface method, we must distinguish if the method signature
schirmer@12854
  1503
   was defined in the interface or if it must be an Object method in the other
schirmer@12854
  1504
   case. If it was an interface method we search the class hierarchy
schirmer@12854
  1505
   starting at the dynamic class of the object up to Object to find the 
schirmer@12854
  1506
   first matching method (@{term methd}). Since all interface methods have 
schirmer@12854
  1507
   public access the method can't be coalesced due to some odd visibility 
schirmer@12854
  1508
   effects like in case of dynmethd. The method will be inherited or 
schirmer@12854
  1509
   overridden in all classes from the first class implementing the interface 
schirmer@12854
  1510
   down to the actual dynamic class.
schirmer@12854
  1511
 *}
schirmer@12854
  1512
schirmer@12854
  1513
constdefs
schirmer@12854
  1514
dynlookup::"prog  \<Rightarrow> ref_ty \<Rightarrow> qtname \<Rightarrow> (sig,qtname \<times> methd) table"
schirmer@12854
  1515
"dynlookup G statT dynC
schirmer@12854
  1516
  \<equiv> (case statT of
schirmer@12854
  1517
       NullT        \<Rightarrow> empty
schirmer@12854
  1518
     | IfaceT I     \<Rightarrow> dynimethd G I      dynC
schirmer@12854
  1519
     | ClassT statC \<Rightarrow> dynmethd  G statC  dynC
schirmer@12854
  1520
     | ArrayT ty    \<Rightarrow> dynmethd  G Object dynC)"
schirmer@12854
  1521
text {* @{term "dynlookup G statT dynC"}: dynamic lookup of a method within the 
schirmer@12854
  1522
    static reference type statT and the dynamic class dynC. 
schirmer@12854
  1523
    In a wellformd context statT will not be NullT and in case
schirmer@12854
  1524
    statT is an array type, dynC=Object *}
schirmer@12854
  1525
schirmer@12854
  1526
constdefs
schirmer@12854
  1527
fields:: "prog \<Rightarrow> qtname \<Rightarrow> ((vname \<times> qtname) \<times> field) list"
schirmer@12854
  1528
"fields G C 
schirmer@12854
  1529
  \<equiv> class_rec (G,C) [] (\<lambda>C c ts. map (\<lambda>(n,t). ((n,C),t)) (cfields c) @ ts)"
schirmer@12854
  1530
text {* @{term "fields G C"} 
schirmer@12854
  1531
     list of fields of a class, including all the fields of the superclasses
schirmer@12854
  1532
     (private, inherited and hidden ones) not only the accessible ones
schirmer@12854
  1533
     (an instance of a object allocates all these fields *}
schirmer@12854
  1534
schirmer@12854
  1535
constdefs
schirmer@12854
  1536
accfield:: "prog \<Rightarrow> qtname \<Rightarrow> qtname \<Rightarrow> (vname, qtname  \<times>  field) table"
schirmer@12854
  1537
"accfield G S C
schirmer@12854
  1538
  \<equiv> let field_tab = table_of((map (\<lambda>((n,d),f).(n,(d,f)))) (fields G C))
schirmer@12854
  1539
    in filter_tab (\<lambda>n (declC,f). G\<turnstile> (declC,fdecl (n,f)) of C accessible_from S)
schirmer@12854
  1540
                  field_tab"
schirmer@12854
  1541
text  {* @{term "accfield G C S"}: fields of a class @{term C} which are 
schirmer@12854
  1542
         accessible from scope of class
schirmer@12854
  1543
         @{term S} with inheritance and hiding, cf. 8.3 *}
schirmer@12854
  1544
text {* note the class component in the accessibility filter (see also 
schirmer@12854
  1545
        @{term methd}).
schirmer@12854
  1546
   The class declaring field @{term f} (@{term declC}) isn't necessarily 
schirmer@12854
  1547
   accessible from scope @{term S}. The field can be made visible through 
schirmer@12854
  1548
   inheritance, too. So we must test accessibility of field @{term f} of class 
schirmer@12854
  1549
   @{term C} (not @{term "declclass f"}) *} 
schirmer@12854
  1550
schirmer@12854
  1551
constdefs
schirmer@12854
  1552
schirmer@12854
  1553
  is_methd :: "prog \<Rightarrow> qtname  \<Rightarrow> sig \<Rightarrow> bool"
schirmer@12854
  1554
 "is_methd G \<equiv> \<lambda>C sig. is_class G C \<and> methd G C sig \<noteq> None"
schirmer@12854
  1555
schirmer@12854
  1556
constdefs efname:: "((vname \<times> qtname) \<times> field) \<Rightarrow> (vname \<times> qtname)"
schirmer@12854
  1557
"efname \<equiv> fst"
schirmer@12854
  1558
schirmer@12854
  1559
lemma efname_simp[simp]:"efname (n,f) = n"
schirmer@12854
  1560
by (simp add: efname_def) 
schirmer@12854
  1561
schirmer@12854
  1562
schirmer@12854
  1563
subsection "imethds"
schirmer@12854
  1564
schirmer@12854
  1565
lemma imethds_rec: "\<lbrakk>iface G I = Some i; ws_prog G\<rbrakk> \<Longrightarrow>  
schirmer@12854
  1566
  imethds G I = Un_tables ((\<lambda>J. imethds  G J)`set (isuperIfs i)) \<oplus>\<oplus>  
schirmer@12854
  1567
                      (o2s \<circ> table_of (map (\<lambda>(s,mh). (s,I,mh)) (imethods i)))"
schirmer@12854
  1568
apply (unfold imethds_def)
schirmer@12854
  1569
apply (rule iface_rec [THEN trans])
schirmer@12854
  1570
apply auto
schirmer@12854
  1571
done
schirmer@12854
  1572
schirmer@12854
  1573
schirmer@12854
  1574
(* local lemma *)
schirmer@12854
  1575
lemma imethds_norec:
schirmer@12854
  1576
  "\<lbrakk>iface G md = Some i; ws_prog G; table_of (imethods i) sig = Some mh\<rbrakk> \<Longrightarrow>  
schirmer@12854
  1577
  (md, mh) \<in> imethds G md sig"
schirmer@12854
  1578
apply (subst imethds_rec)
schirmer@12854
  1579
apply assumption+
schirmer@12854
  1580
apply (rule iffD2)
schirmer@12854
  1581
apply (rule overrides_t_Some_iff)
schirmer@12854
  1582
apply (rule disjI1)
schirmer@12854
  1583
apply (auto elim: table_of_map_SomeI)
schirmer@12854
  1584
done
schirmer@12854
  1585
schirmer@12854
  1586
lemma imethds_declI: "\<lbrakk>m \<in> imethds G I sig; ws_prog G; is_iface G I\<rbrakk> \<Longrightarrow> 
schirmer@12854
  1587
  (\<exists>i. iface G (decliface m) = Some i \<and> 
schirmer@12854
  1588
  table_of (imethods i) sig = Some (mthd m)) \<and>  
schirmer@12854
  1589
  (I,decliface m) \<in> (subint1 G)^* \<and> m \<in> imethds G (decliface m) sig"
schirmer@12854
  1590
apply (erule make_imp)
schirmer@12854
  1591
apply (rule ws_subint1_induct, assumption, assumption)
schirmer@12854
  1592
apply (subst imethds_rec, erule conjunct1, assumption)
schirmer@12854
  1593
apply (force elim: imethds_norec intro: rtrancl_into_rtrancl2)
schirmer@12854
  1594
done
schirmer@12854
  1595
schirmer@12854
  1596
lemma imethds_cases [consumes 3, case_names NewMethod InheritedMethod]:
wenzelm@12937
  1597
  assumes im: "im \<in> imethds G I sig" and  
schirmer@12854
  1598
         ifI: "iface G I = Some i" and
schirmer@12854
  1599
          ws: "ws_prog G" and
schirmer@12854
  1600
     hyp_new:  "table_of (map (\<lambda>(s, mh). (s, I, mh)) (imethods i)) sig 
schirmer@12854
  1601
                = Some im \<Longrightarrow> P" and
schirmer@12854
  1602
     hyp_inh: "\<And> J. \<lbrakk>J \<in> set (isuperIfs i); im \<in> imethds G J sig\<rbrakk> \<Longrightarrow> P"
wenzelm@12937
  1603
  shows P
schirmer@12854
  1604
proof -
schirmer@12854
  1605
  from ifI ws im hyp_new hyp_inh
schirmer@12854
  1606
  show "P"
schirmer@12854
  1607
    by (auto simp add: imethds_rec)
schirmer@12854
  1608
qed
schirmer@12854
  1609
schirmer@12854
  1610
subsection "accimethd"
schirmer@12854
  1611
schirmer@12854
  1612
lemma accimethds_simp [simp]: 
schirmer@12854
  1613
"G\<turnstile>Iface I accessible_in pack \<Longrightarrow> accimethds G pack I = imethds G I"
schirmer@12854
  1614
by (simp add: accimethds_def)
schirmer@12854
  1615
schirmer@12854
  1616
lemma accimethdsD:
schirmer@12854
  1617
 "im \<in> accimethds G pack I sig 
schirmer@12854
  1618
  \<Longrightarrow> im \<in> imethds G I sig \<and> G\<turnstile>Iface I accessible_in pack"
schirmer@12854
  1619
by (auto simp add: accimethds_def)
schirmer@12854
  1620
schirmer@12854
  1621
lemma accimethdsI: 
schirmer@12854
  1622
"\<lbrakk>im \<in> imethds G I sig;G\<turnstile>Iface I accessible_in pack\<rbrakk>
schirmer@12854
  1623
 \<Longrightarrow> im \<in> accimethds G pack I sig"
schirmer@12854
  1624
by simp
schirmer@12854
  1625
schirmer@12854
  1626
subsection "methd"
schirmer@12854
  1627
schirmer@12854
  1628
lemma methd_rec: "\<lbrakk>class G C = Some c; ws_prog G\<rbrakk> \<Longrightarrow>  
schirmer@12854
  1629
  methd G C 
schirmer@12854
  1630
    = (if C = Object 
schirmer@12854
  1631
          then empty 
schirmer@12854
  1632
          else filter_tab (\<lambda>sig m. G\<turnstile>C inherits method sig m)
schirmer@12854
  1633
                          (methd G (super c))) 
schirmer@12854
  1634
      ++ table_of (map (\<lambda>(s,m). (s,C,m)) (methods c))"
schirmer@12854
  1635
apply (unfold methd_def)
schirmer@12854
  1636
apply (erule class_rec [THEN trans], assumption)
schirmer@12854
  1637
apply (simp)
schirmer@12854
  1638
done
schirmer@12854
  1639
schirmer@12854
  1640
(* local lemma *)
schirmer@12854
  1641
lemma methd_norec: 
schirmer@12854
  1642
 "\<lbrakk>class G declC = Some c; ws_prog G;table_of (methods c) sig = Some m\<rbrakk> 
schirmer@12854
  1643
  \<Longrightarrow> methd G declC sig = Some (declC, m)"
schirmer@12854
  1644
apply (simp only: methd_rec)
nipkow@14025
  1645
apply (rule disjI1 [THEN map_add_Some_iff [THEN iffD2]])
schirmer@12854
  1646
apply (auto elim: table_of_map_SomeI)
schirmer@12854
  1647
done
schirmer@12854
  1648
schirmer@12854
  1649
schirmer@12854
  1650
lemma methd_declC: 
schirmer@12854
  1651
"\<lbrakk>methd G C sig = Some m; ws_prog G;is_class G C\<rbrakk> \<Longrightarrow>
schirmer@12854
  1652
 (\<exists>d. class G (declclass m)=Some d \<and> table_of (methods d) sig=Some (mthd m)) \<and> 
schirmer@12854
  1653
 G\<turnstile>C \<preceq>\<^sub>C (declclass m) \<and> methd G (declclass m) sig = Some m"   
schirmer@12854
  1654
apply (erule make_imp)
schirmer@12854
  1655
apply (rule ws_subcls1_induct, assumption, assumption)
schirmer@12854
  1656
apply (subst methd_rec, assumption)
schirmer@12854
  1657
apply (case_tac "Ca=Object")
schirmer@12854
  1658
apply   (force elim: methd_norec )
schirmer@12854
  1659
schirmer@12854
  1660
apply   simp
schirmer@12854
  1661
apply   (case_tac "table_of (map (\<lambda>(s, m). (s, Ca, m)) (methods c)) sig")
schirmer@12854
  1662
apply     (force intro: rtrancl_into_rtrancl2)
schirmer@12854
  1663
schirmer@12854
  1664
apply     (auto intro: methd_norec)
schirmer@12854
  1665
done
schirmer@12854
  1666
schirmer@12854
  1667
lemma methd_inheritedD:
schirmer@12854
  1668
  "\<lbrakk>class G C = Some c; ws_prog G;methd G C sig = Some m\<rbrakk>
schirmer@12854
  1669
  \<Longrightarrow>  (declclass m \<noteq> C \<longrightarrow> G \<turnstile>C inherits method sig m)"
schirmer@12854
  1670
by (auto simp add: methd_rec)
schirmer@12854
  1671
schirmer@12854
  1672
lemma methd_diff_cls:
schirmer@12854
  1673
"\<lbrakk>ws_prog G; is_class G C; is_class G D;
schirmer@12854
  1674
 methd G C sig = m; methd G D sig = n; m\<noteq>n
schirmer@12854
  1675
\<rbrakk> \<Longrightarrow> C\<noteq>D"
schirmer@12854
  1676
by (auto simp add: methd_rec)
schirmer@12854
  1677
schirmer@12854
  1678
lemma method_declared_inI: 
schirmer@12854
  1679
 "\<lbrakk>table_of (methods c) sig = Some m; class G C = Some c\<rbrakk>
schirmer@12854
  1680
  \<Longrightarrow> G\<turnstile>mdecl (sig,m) declared_in C"
schirmer@12854
  1681
by (auto simp add: cdeclaredmethd_def declared_in_def)
schirmer@12854
  1682
schirmer@12854
  1683
lemma methd_declared_in_declclass: 
schirmer@12854
  1684
 "\<lbrakk>methd G C sig = Some m; ws_prog G;is_class G C\<rbrakk> 
schirmer@12854
  1685
 \<Longrightarrow> G\<turnstile>Methd sig m declared_in (declclass m)"
schirmer@12854
  1686
by (auto dest: methd_declC method_declared_inI)
schirmer@12854
  1687
schirmer@12854
  1688
lemma member_methd:
wenzelm@12937
  1689
  assumes member_of: "G\<turnstile>Methd sig m member_of C" and
schirmer@12854
  1690
                 ws: "ws_prog G"
wenzelm@12937
  1691
  shows "methd G C sig = Some m"
schirmer@12854
  1692
proof -
schirmer@12854
  1693
  from member_of 
schirmer@12854
  1694
  have iscls_C: "is_class G C" 
schirmer@12854
  1695
    by (rule member_of_is_classD)
schirmer@12854
  1696
  from iscls_C ws member_of
schirmer@12854
  1697
  show ?thesis (is "?Methd C")
schirmer@12854
  1698
  proof (induct rule: ws_class_induct')
schirmer@12854
  1699
    case (Object co)
schirmer@12854
  1700
    assume "G \<turnstile>Methd sig m member_of Object"
schirmer@12854
  1701
    then have "G\<turnstile>Methd sig m declared_in Object \<and> declclass m = Object"
schirmer@12854
  1702
      by (cases set: members) (cases m, auto dest: subcls1D)
schirmer@12854
  1703
    with ws Object 
schirmer@12854
  1704
    show "?Methd Object"
schirmer@12854
  1705
      by (cases m)
schirmer@12854
  1706
         (auto simp add: declared_in_def cdeclaredmethd_def methd_rec
schirmer@12854
  1707
                  intro:  table_of_mapconst_SomeI)
schirmer@12854
  1708
  next
schirmer@12854
  1709
    case (Subcls C c)
schirmer@12854
  1710
    assume clsC: "class G C = Some c" and
schirmer@12854
  1711
      neq_C_Obj: "C \<noteq> Object" and
schirmer@12854
  1712
            hyp: "G \<turnstile>Methd sig m member_of super c \<Longrightarrow> ?Methd (super c)" and
schirmer@12854
  1713
      member_of: "G \<turnstile>Methd sig m member_of C"
schirmer@12854
  1714
    from member_of
schirmer@12854
  1715
    show "?Methd C"
schirmer@12854
  1716
    proof (cases)
schirmer@12854
  1717
      case (Immediate Ca membr)
schirmer@12854
  1718
      then have "Ca=C" "membr = method sig m" and 
schirmer@12854
  1719
                "G\<turnstile>Methd sig m declared_in C" "declclass m = C"
schirmer@12854
  1720
	by (cases m,auto)
schirmer@12854
  1721
      with clsC 
schirmer@12854
  1722
      have "table_of (map (\<lambda>(s, m). (s, C, m)) (methods c)) sig = Some m"
schirmer@12854
  1723
	by (cases m)
schirmer@12854
  1724
	   (auto simp add: declared_in_def cdeclaredmethd_def
schirmer@12854
  1725
	            intro: table_of_mapconst_SomeI)
schirmer@12854
  1726
      with clsC neq_C_Obj ws 
schirmer@12854
  1727
      show ?thesis
schirmer@12854
  1728
	by (simp add: methd_rec)
schirmer@12854
  1729
    next
schirmer@12854
  1730
      case (Inherited Ca S membr)
schirmer@12854
  1731
      with clsC
schirmer@12854
  1732
      have eq_Ca_C: "Ca=C" and
schirmer@12854
  1733
            undecl: "G\<turnstile>mid sig undeclared_in C" and
schirmer@12854
  1734
             super: "G \<turnstile>Methd sig m member_of (super c)"
schirmer@12854
  1735
	by (auto dest: subcls1D)
schirmer@12854
  1736
      from eq_Ca_C clsC undecl 
schirmer@12854
  1737
      have "table_of (map (\<lambda>(s, m). (s, C, m)) (methods c)) sig = None"
schirmer@12854
  1738
	by (auto simp add: undeclared_in_def cdeclaredmethd_def
schirmer@12854
  1739
	            intro: table_of_mapconst_NoneI)
schirmer@12854
  1740
      moreover
schirmer@12854
  1741
      from Inherited have "G \<turnstile> C inherits (method sig m)"
schirmer@12854
  1742
	by (auto simp add: inherits_def)
schirmer@12854
  1743
      moreover
schirmer@12854
  1744
      note clsC neq_C_Obj ws super hyp 
schirmer@12854
  1745
      ultimately
schirmer@12854
  1746
      show ?thesis
schirmer@12854
  1747
	by (auto simp add: methd_rec intro: filter_tab_SomeI)
schirmer@12854
  1748
    qed
schirmer@12854
  1749
  qed
schirmer@12854
  1750
qed
schirmer@12854
  1751
schirmer@12854
  1752
(*unused*)
schirmer@12854
  1753
lemma finite_methd:"ws_prog G \<Longrightarrow> finite {methd G C sig |sig C. is_class G C}"
schirmer@12854
  1754
apply (rule finite_is_class [THEN finite_SetCompr2])
schirmer@12854
  1755
apply (intro strip)
schirmer@12854
  1756
apply (erule_tac ws_subcls1_induct, assumption)
schirmer@12854
  1757
apply (subst methd_rec)
schirmer@12854
  1758
apply (assumption)
nipkow@14025
  1759
apply (auto intro!: finite_range_map_of finite_range_filter_tab finite_range_map_of_map_add)
schirmer@12854
  1760
done
schirmer@12854
  1761
schirmer@12854
  1762
lemma finite_dom_methd:
schirmer@12854
  1763
 "\<lbrakk>ws_prog G; is_class G C\<rbrakk> \<Longrightarrow> finite (dom (methd G C))"
schirmer@12854
  1764
apply (erule_tac ws_subcls1_induct)
schirmer@12854
  1765
apply assumption
schirmer@12854
  1766
apply (subst methd_rec)
schirmer@12854
  1767
apply (assumption)
schirmer@12854
  1768
apply (auto intro!: finite_dom_map_of finite_dom_filter_tab)
schirmer@12854
  1769
done
schirmer@12854
  1770
schirmer@12854
  1771
schirmer@12854
  1772
subsection "accmethd"
schirmer@12854
  1773
schirmer@12854
  1774
lemma accmethd_SomeD:
schirmer@12854
  1775
"accmethd G S C sig = Some m
schirmer@12854
  1776
 \<Longrightarrow> methd G C sig = Some m \<and> G\<turnstile>method sig m of C accessible_from S"
schirmer@12854
  1777
by (auto simp add: accmethd_def dest: filter_tab_SomeD)
schirmer@12854
  1778
schirmer@12854
  1779
lemma accmethd_SomeI:
schirmer@12854
  1780
"\<lbrakk>methd G C sig = Some m; G\<turnstile>method sig m of C accessible_from S\<rbrakk> 
schirmer@12854
  1781
 \<Longrightarrow> accmethd G S C sig = Some m"
schirmer@12854
  1782
by (auto simp add: accmethd_def intro: filter_tab_SomeI)
schirmer@12854
  1783
schirmer@12854
  1784
lemma accmethd_declC: 
schirmer@12854
  1785
"\<lbrakk>accmethd G S C sig = Some m; ws_prog G; is_class G C\<rbrakk> \<Longrightarrow>
schirmer@12854
  1786
 (\<exists>d. class G (declclass m)=Some d \<and> 
schirmer@12854
  1787
  table_of (methods d) sig=Some (mthd m)) \<and> 
schirmer@12854
  1788
 G\<turnstile>C \<preceq>\<^sub>C (declclass m) \<and> methd G (declclass m) sig = Some m \<and> 
schirmer@12854
  1789
 G\<turnstile>method sig m of C accessible_from S"
schirmer@12854
  1790
by (auto dest: accmethd_SomeD methd_declC accmethd_SomeI)
schirmer@12854
  1791
schirmer@12854
  1792
schirmer@12854
  1793
lemma finite_dom_accmethd:
schirmer@12854
  1794
 "\<lbrakk>ws_prog G; is_class G C\<rbrakk> \<Longrightarrow> finite (dom (accmethd G S C))"
schirmer@12854
  1795
by (auto simp add: accmethd_def intro: finite_dom_filter_tab finite_dom_methd)
schirmer@12854
  1796
schirmer@12854
  1797
schirmer@12854
  1798
subsection "dynmethd"
schirmer@12854
  1799
schirmer@12854
  1800
lemma dynmethd_rec:
schirmer@12854
  1801
"\<lbrakk>class G dynC = Some c; ws_prog G\<rbrakk> \<Longrightarrow>  
schirmer@12854
  1802
 dynmethd G statC dynC sig
schirmer@12854
  1803
   = (if G\<turnstile>dynC \<preceq>\<^sub>C statC
schirmer@12854
  1804
        then (case methd G statC sig of
schirmer@12854
  1805
                None \<Rightarrow> None
schirmer@12854
  1806
              | Some statM 
schirmer@12854
  1807
                  \<Rightarrow> (case methd G dynC sig of
schirmer@12854
  1808
                        None \<Rightarrow> dynmethd G statC (super c) sig
schirmer@12854
  1809
                      | Some dynM \<Rightarrow> 
schirmer@12854
  1810
                          (if G,sig\<turnstile> dynM overrides statM \<or> dynM = statM 
schirmer@12854
  1811
                              then Some dynM
schirmer@12854
  1812
                              else (dynmethd G statC (super c) sig)
schirmer@12854
  1813
                      )))
schirmer@12854
  1814
         else None)" 
schirmer@12854
  1815
   (is "_ \<Longrightarrow> _ \<Longrightarrow> ?Dynmethd_def dynC sig  = ?Dynmethd_rec dynC c sig") 
schirmer@12854
  1816
proof -
schirmer@12854
  1817
  assume clsDynC: "class G dynC = Some c" and 
schirmer@12854
  1818
              ws: "ws_prog G"
schirmer@12854
  1819
  then show "?Dynmethd_def dynC sig  = ?Dynmethd_rec dynC c sig" 
schirmer@12854
  1820
  proof (induct rule: ws_class_induct'')
schirmer@12854
  1821
    case (Object co)
schirmer@12854
  1822
    show "?Dynmethd_def Object sig = ?Dynmethd_rec Object co sig"
schirmer@12854
  1823
    proof (cases "G\<turnstile>Object \<preceq>\<^sub>C statC") 
schirmer@12854
  1824
      case False
schirmer@12854
  1825
      then show ?thesis by (simp add: dynmethd_def)
schirmer@12854
  1826
    next
schirmer@12854
  1827
      case True
schirmer@12854
  1828
      then have eq_statC_Obj: "statC = Object" ..
schirmer@12854
  1829
      show ?thesis 
schirmer@12854
  1830
      proof (cases "methd G statC sig")
schirmer@12854
  1831
	case None then show ?thesis by (simp add: dynmethd_def)
schirmer@12854
  1832
      next
schirmer@12854
  1833
	case Some
schirmer@12854
  1834
	with True Object ws eq_statC_Obj 
schirmer@12854
  1835
	show ?thesis
schirmer@12854
  1836
	  by (auto simp add: dynmethd_def class_rec
schirmer@12854
  1837
                      intro: filter_tab_SomeI)
schirmer@12854
  1838
      qed
schirmer@12854
  1839
    qed
schirmer@12854
  1840
  next  
schirmer@12854
  1841
    case (Subcls dynC c sc)
schirmer@12854
  1842
    show "?Dynmethd_def dynC sig = ?Dynmethd_rec dynC c sig"
schirmer@12854
  1843
    proof (cases "G\<turnstile>dynC \<preceq>\<^sub>C statC") 
schirmer@12854
  1844
      case False
schirmer@12854
  1845
      then show ?thesis by (simp add: dynmethd_def)
schirmer@12854
  1846
    next
schirmer@12854
  1847
      case True
schirmer@12854
  1848
      note subclseq_dynC_statC = True
schirmer@12854
  1849
      show ?thesis
schirmer@12854
  1850
      proof (cases "methd G statC sig")
schirmer@12854
  1851
	case None then show ?thesis by (simp add: dynmethd_def)
schirmer@12854
  1852
      next
schirmer@12854
  1853
	case (Some statM)
schirmer@12854
  1854
	note statM = Some
schirmer@12854
  1855
	let "?filter C" = 
schirmer@12854
  1856
              "filter_tab
schirmer@12854
  1857
                (\<lambda>_ dynM. G,sig \<turnstile> dynM overrides statM \<or> dynM = statM)
schirmer@12854
  1858
                (methd G C)"
schirmer@12854
  1859
        let "?class_rec C" =
schirmer@12854
  1860
              "(class_rec (G, C) empty
schirmer@12854
  1861
                           (\<lambda>C c subcls_mthds. subcls_mthds ++ (?filter C)))"
schirmer@12854
  1862
	from statM Subcls ws subclseq_dynC_statC
schirmer@12854
  1863
	have dynmethd_dynC_def:
schirmer@12854
  1864
             "?Dynmethd_def dynC sig =
schirmer@12854
  1865
                ((?class_rec (super c)) 
schirmer@12854
  1866
                 ++
schirmer@12854
  1867
                (?filter dynC)) sig"
schirmer@12854
  1868
         by (simp (no_asm_simp) only: dynmethd_def class_rec)
schirmer@12854
  1869
	    auto
schirmer@12854
  1870
       show ?thesis
schirmer@12854
  1871
       proof (cases "dynC = statC")
schirmer@12854
  1872
	 case True
schirmer@12854
  1873
	 with subclseq_dynC_statC statM dynmethd_dynC_def
schirmer@12854
  1874
	 have "?Dynmethd_def dynC sig = Some statM"
nipkow@14025
  1875
	   by (auto intro: map_add_find_right filter_tab_SomeI)
schirmer@12854
  1876
	 with subclseq_dynC_statC True Some 
schirmer@12854
  1877
	 show ?thesis
schirmer@12854
  1878
	   by auto
schirmer@12854
  1879
       next
schirmer@12854
  1880
	 case False
schirmer@12854
  1881
	 with subclseq_dynC_statC Subcls 
schirmer@12854
  1882
	 have subclseq_super_statC: "G\<turnstile>(super c) \<preceq>\<^sub>C statC"
schirmer@12854
  1883
	   by (blast dest: subclseq_superD)
schirmer@12854
  1884
	 show ?thesis
schirmer@12854
  1885
	 proof (cases "methd G dynC sig") 
schirmer@12854
  1886
	   case None
schirmer@12854
  1887
	   then have "?filter dynC sig = None"
schirmer@12854
  1888
	     by (rule filter_tab_None)
schirmer@12854
  1889
           then have "?Dynmethd_def dynC sig=?class_rec (super c) sig"
schirmer@12854
  1890
	     by (simp add: dynmethd_dynC_def)
schirmer@12854
  1891
	   with  subclseq_super_statC statM None
schirmer@12854
  1892
	   have "?Dynmethd_def dynC sig = ?Dynmethd_def (super c) sig"
schirmer@12854
  1893
	     by (auto simp add: empty_def dynmethd_def)
schirmer@12854
  1894
           with None subclseq_dynC_statC statM
schirmer@12854
  1895
	   show ?thesis 
schirmer@12854
  1896
	     by simp
schirmer@12854
  1897
	 next
schirmer@12854
  1898
	   case (Some dynM)
schirmer@12854
  1899
	   note dynM = Some
schirmer@12854
  1900
	   let ?Termination = "G \<turnstile> qmdecl sig dynM overrides qmdecl sig statM \<or>
schirmer@12854
  1901
                               dynM = statM"
schirmer@12854
  1902
	   show ?thesis
schirmer@12854
  1903
	   proof (cases "?filter dynC sig")
schirmer@12854
  1904
	     case None
schirmer@12854
  1905
	     with dynM 
schirmer@12854
  1906
	     have no_termination: "\<not> ?Termination"
schirmer@12854
  1907
	       by (simp add: filter_tab_def)
schirmer@12854
  1908
	     from None 
schirmer@12854
  1909
	     have "?Dynmethd_def dynC sig=?class_rec (super c) sig"
schirmer@12854
  1910
	       by (simp add: dynmethd_dynC_def)
schirmer@12854
  1911
	     with subclseq_super_statC statM dynM no_termination
schirmer@12854
  1912
	     show ?thesis
schirmer@12854
  1913
	       by (auto simp add: empty_def dynmethd_def)
schirmer@12854
  1914
	   next
schirmer@12854
  1915
	     case Some
schirmer@12854
  1916
	     with dynM
schirmer@12854
  1917
	     have termination: "?Termination"
schirmer@12854
  1918
	       by (auto)
schirmer@12854
  1919
	     with Some dynM
schirmer@12854
  1920
	     have "?Dynmethd_def dynC sig=Some dynM"
schirmer@12854
  1921
	      by (auto simp add: dynmethd_dynC_def)
schirmer@12854
  1922
	     with subclseq_super_statC statM dynM termination
schirmer@12854
  1923
	     show ?thesis
schirmer@12854
  1924
	       by (auto simp add: dynmethd_def)
schirmer@12854
  1925
	   qed
schirmer@12854
  1926
	 qed
schirmer@12854
  1927
       qed
schirmer@12854
  1928
     qed
schirmer@12854
  1929
   qed
schirmer@12854
  1930
 qed
schirmer@12854
  1931
qed
schirmer@12854
  1932
	       
schirmer@12854
  1933
lemma dynmethd_C_C:"\<lbrakk>is_class G C; ws_prog G\<rbrakk> 
schirmer@12854
  1934
\<Longrightarrow> dynmethd G C C sig = methd G C sig"          
schirmer@12854
  1935
apply (auto simp add: dynmethd_rec)
schirmer@12854
  1936
done
schirmer@12854
  1937
 
schirmer@12854
  1938
lemma dynmethdSomeD: 
schirmer@12854
  1939
 "\<lbrakk>dynmethd G statC dynC sig = Some dynM; is_class G dynC; ws_prog G\<rbrakk> 
schirmer@12854
  1940
  \<Longrightarrow> G\<turnstile>dynC \<preceq>\<^sub>C statC \<and> (\<exists> statM. methd G statC sig = Some statM)"
schirmer@12854
  1941
by (auto simp add: dynmethd_rec)
schirmer@12854
  1942
 
schirmer@12854
  1943
lemma dynmethd_Some_cases [consumes 3, case_names Static Overrides]:
wenzelm@12937
  1944
  assumes      dynM: "dynmethd G statC dynC sig = Some dynM" and
schirmer@12854
  1945
        is_cls_dynC: "is_class G dynC" and
schirmer@12854
  1946
                 ws: "ws_prog G" and
schirmer@12854
  1947
         hyp_static: "methd G statC sig = Some dynM \<Longrightarrow> P" and
schirmer@12854
  1948
       hyp_override: "\<And> statM. \<lbrakk>methd G statC sig = Some statM;dynM\<noteq>statM;
schirmer@12854
  1949
                       G,sig\<turnstile>dynM overrides statM\<rbrakk> \<Longrightarrow> P"
wenzelm@12937
  1950
  shows P
schirmer@12854
  1951
proof -
schirmer@12854
  1952
  from is_cls_dynC obtain dc where clsDynC: "class G dynC = Some dc" by blast
schirmer@12854
  1953
  from clsDynC ws dynM hyp_static hyp_override
schirmer@12854
  1954
  show "P"
schirmer@12854
  1955
  proof (induct rule: ws_class_induct)
schirmer@12854
  1956
    case (Object co)
schirmer@12854
  1957
    with ws  have "statC = Object" 
schirmer@12854
  1958
      by (auto simp add: dynmethd_rec)
schirmer@12854
  1959
    with ws Object show ?thesis by (auto simp add: dynmethd_C_C)
schirmer@12854
  1960
  next
schirmer@12854
  1961
    case (Subcls C c)
schirmer@12854
  1962
    with ws show ?thesis
schirmer@12854
  1963
      by (auto simp add: dynmethd_rec)
schirmer@12854
  1964
  qed
schirmer@12854
  1965
qed
schirmer@12854
  1966
schirmer@12854
  1967
lemma no_override_in_Object:
wenzelm@12937
  1968
  assumes          dynM: "dynmethd G statC dynC sig = Some dynM" and
schirmer@12854
  1969
            is_cls_dynC: "is_class G dynC" and
schirmer@12854
  1970
                     ws: "ws_prog G" and
schirmer@12854
  1971
                  statM: "methd G statC sig = Some statM" and
schirmer@12854
  1972
         neq_dynM_statM: "dynM\<noteq>statM"
wenzelm@12937
  1973
  shows "dynC \<noteq> Object"
schirmer@12854
  1974
proof -
schirmer@12854
  1975
  from is_cls_dynC obtain dc where clsDynC: "class G dynC = Some dc" by blast
schirmer@12854
  1976
  from clsDynC ws dynM statM neq_dynM_statM 
schirmer@12854
  1977
  show ?thesis (is "?P dynC")
schirmer@12854
  1978
  proof (induct rule: ws_class_induct)
schirmer@12854
  1979
    case (Object co)
schirmer@12854
  1980
    with ws  have "statC = Object" 
schirmer@12854
  1981
      by (auto simp add: dynmethd_rec)
schirmer@12854
  1982
    with ws Object show "?P Object" by (auto simp add: dynmethd_C_C)
schirmer@12854
  1983
  next
schirmer@12854
  1984
    case (Subcls dynC c)
schirmer@12854
  1985
    with ws show "?P dynC"
schirmer@12854
  1986
      by (auto simp add: dynmethd_rec)
schirmer@12854
  1987
  qed
schirmer@12854
  1988
qed
schirmer@12854
  1989
schirmer@12854
  1990
schirmer@12854
  1991
lemma dynmethd_Some_rec_cases [consumes 3, 
schirmer@12854
  1992
                               case_names Static Override  Recursion]:
wenzelm@12937
  1993
  assumes          dynM: "dynmethd G statC dynC sig = Some dynM" and
schirmer@12854
  1994
                clsDynC: "class G dynC = Some c" and
schirmer@12854
  1995
                     ws: "ws_prog G" and
schirmer@12854
  1996
             hyp_static: "methd G statC sig = Some dynM \<Longrightarrow> P" and
schirmer@12854
  1997
           hyp_override: "\<And> statM. \<lbrakk>methd G statC sig = Some statM;
schirmer@12854
  1998
                                     methd G dynC sig = Some dynM; statM\<noteq>dynM;
schirmer@12854
  1999
                                     G,sig\<turnstile> dynM overrides statM\<rbrakk> \<Longrightarrow> P" and
schirmer@12854
  2000
schirmer@12854
  2001
          hyp_recursion: "\<lbrakk>dynC\<noteq>Object;
wenzelm@12937
  2002
                           dynmethd G statC (super c) sig = Some dynM\<rbrakk> \<Longrightarrow> P"
wenzelm@12937
  2003
  shows P
schirmer@12854
  2004
proof -
schirmer@12854
  2005
  from clsDynC have "is_class G dynC" by simp
schirmer@12854
  2006
  note no_override_in_Object' = no_override_in_Object [OF dynM this ws]
schirmer@12854
  2007
  from ws clsDynC dynM hyp_static hyp_override hyp_recursion
schirmer@12854
  2008
  show ?thesis
schirmer@12854
  2009
    by (auto simp add: dynmethd_rec dest: no_override_in_Object')
schirmer@12854
  2010
qed
schirmer@12854
  2011
schirmer@12854
  2012
lemma dynmethd_declC: 
schirmer@12854
  2013
"\<lbrakk>dynmethd G statC dynC sig = Some m;
schirmer@12854
  2014
  is_class G statC;ws_prog G
schirmer@12854
  2015
 \<rbrakk> \<Longrightarrow>
schirmer@12854
  2016
  (\<exists>d. class G (declclass m)=Some d \<and> table_of (methods d) sig=Some (mthd m)) \<and>
schirmer@12854
  2017
  G\<turnstile>dynC \<preceq>\<^sub>C (declclass m) \<and> methd G (declclass m) sig = Some m"
schirmer@12854
  2018
proof - 
schirmer@12854
  2019
  assume  is_cls_statC: "is_class G statC" 
schirmer@12854
  2020
  assume            ws: "ws_prog G"  
schirmer@12854
  2021
  assume             m: "dynmethd G statC dynC sig = Some m"
schirmer@12854
  2022
  from m 
schirmer@12854
  2023
  have "G\<turnstile>dynC \<preceq>\<^sub>C statC" by (auto simp add: dynmethd_def)
schirmer@12854
  2024
  from this is_cls_statC 
schirmer@12854
  2025
  have is_cls_dynC: "is_class G dynC" by (rule subcls_is_class2)
schirmer@12854
  2026
  from is_cls_dynC ws m  
schirmer@12854
  2027
  show ?thesis (is "?P dynC") 
schirmer@12854
  2028
  proof (induct rule: ws_class_induct')
schirmer@12854
  2029
    case (Object co)
schirmer@12854
  2030
    with ws have "statC=Object" by (auto simp add: dynmethd_rec)
schirmer@12854
  2031
    with ws Object  
schirmer@12854
  2032
    show "?P Object" 
schirmer@12854
  2033
      by (auto simp add: dynmethd_C_C dest: methd_declC)
schirmer@12854
  2034
  next
schirmer@12854
  2035
    case (Subcls dynC c)
schirmer@12854
  2036
    assume   hyp: "dynmethd G statC (super c) sig = Some m \<Longrightarrow> ?P (super c)" and
schirmer@12854
  2037
         clsDynC: "class G dynC = Some c"  and
schirmer@12854
  2038
              m': "dynmethd G statC dynC sig = Some m" and
schirmer@12854
  2039
    neq_dynC_Obj: "dynC \<noteq> Object"
schirmer@12854
  2040
    from ws this obtain statM where
schirmer@12854
  2041
      subclseq_dynC_statC: "G\<turnstile>dynC \<preceq>\<^sub>C statC" and 
schirmer@12854
  2042
                     statM: "methd G statC sig = Some statM"
schirmer@12854
  2043
      by (blast dest: dynmethdSomeD)
schirmer@12854
  2044
    from clsDynC neq_dynC_Obj 
schirmer@12854
  2045
    have subclseq_dynC_super: "G\<turnstile>dynC \<preceq>\<^sub>C (super c)" 
schirmer@12854
  2046
      by (auto intro: subcls1I) 
schirmer@12854
  2047
    from m' clsDynC ws 
schirmer@12854
  2048
    show "?P dynC"
schirmer@12854
  2049
    proof (cases rule: dynmethd_Some_rec_cases) 
schirmer@12854
  2050
      case Static
schirmer@12854
  2051
      with is_cls_statC ws subclseq_dynC_statC 
schirmer@12854
  2052
      show ?thesis 
schirmer@12854
  2053
	by (auto intro: rtrancl_trans dest: methd_declC)
schirmer@12854
  2054
    next
schirmer@12854
  2055
      case Override
schirmer@12854
  2056
      with clsDynC ws 
schirmer@12854
  2057
      show ?thesis 
schirmer@12854
  2058
	by (auto dest: methd_declC)
schirmer@12854
  2059
    next
schirmer@12854
  2060
      case Recursion
schirmer@12854
  2061
      with hyp subclseq_dynC_super 
schirmer@12854
  2062
      show ?thesis 
schirmer@12854
  2063
	by (auto intro: rtrancl_trans) 
schirmer@12854
  2064
    qed
schirmer@12854
  2065
  qed
schirmer@12854
  2066
qed
schirmer@12854
  2067
schirmer@12854
  2068
lemma methd_Some_dynmethd_Some:
wenzelm@12937
  2069
  assumes     statM: "methd G statC sig = Some statM" and
schirmer@12854
  2070
           subclseq: "G\<turnstile>dynC \<preceq>\<^sub>C statC" and
schirmer@12854
  2071
       is_cls_statC: "is_class G statC" and
schirmer@12854
  2072
                 ws: "ws_prog G"
wenzelm@12937
  2073
  shows "\<exists> dynM. dynmethd G statC dynC sig = Some dynM"
wenzelm@12937
  2074
    (is "?P dynC")
schirmer@12854
  2075
proof -
schirmer@12854
  2076
  from subclseq is_cls_statC 
schirmer@12854
  2077
  have is_cls_dynC: "is_class G dynC" by (rule subcls_is_class2)
schirmer@12854
  2078
  then obtain dc where
schirmer@12854
  2079
    clsDynC: "class G dynC = Some dc" by blast
schirmer@12854
  2080
  from clsDynC ws subclseq 
schirmer@12854
  2081
  show "?thesis"
schirmer@12854
  2082
  proof (induct rule: ws_class_induct)
schirmer@12854
  2083
    case (Object co)
schirmer@12854
  2084
    with ws  have "statC = Object" 
schirmer@12854
  2085
      by (auto)
schirmer@12854
  2086
    with ws Object statM
schirmer@12854
  2087
    show "?P Object"  
schirmer@12854
  2088
      by (auto simp add: dynmethd_C_C)
schirmer@12854
  2089
  next
schirmer@12854
  2090
    case (Subcls dynC dc)
schirmer@12854
  2091
    assume clsDynC': "class G dynC = Some dc"
schirmer@12854
  2092
    assume neq_dynC_Obj: "dynC \<noteq> Object"
schirmer@12854
  2093
    assume hyp: "G\<turnstile>super dc\<preceq>\<^sub>C statC \<Longrightarrow> ?P (super dc)"
schirmer@12854
  2094
    assume subclseq': "G\<turnstile>dynC\<preceq>\<^sub>C statC"
schirmer@12854
  2095
    then
schirmer@12854
  2096
    show "?P dynC"
schirmer@12854
  2097
    proof (cases rule: subclseq_cases)
schirmer@12854
  2098
      case Eq
schirmer@12854
  2099
      with ws statM clsDynC' 
schirmer@12854
  2100
      show ?thesis
schirmer@12854
  2101
	by (auto simp add: dynmethd_rec)
schirmer@12854
  2102
    next
schirmer@12854
  2103
      case Subcls
schirmer@12854
  2104
      assume "G\<turnstile>dynC\<prec>\<^sub>C statC"
schirmer@12854
  2105
      from this clsDynC' 
schirmer@12854
  2106
      have "G\<turnstile>super dc\<preceq>\<^sub>C statC" by (rule subcls_superD)
schirmer@12854
  2107
      with hyp ws clsDynC' subclseq' statM
schirmer@12854
  2108
      show ?thesis
schirmer@12854
  2109
	by (auto simp add: dynmethd_rec)
schirmer@12854
  2110
    qed
schirmer@12854
  2111
  qed
schirmer@12854
  2112
qed
schirmer@12854
  2113
schirmer@12854
  2114
lemma dynmethd_cases [consumes 4, case_names Static Overrides]:
wenzelm@12937
  2115
  assumes     statM: "methd G statC sig = Some statM" and 
schirmer@12854
  2116
           subclseq: "G\<turnstile>dynC \<preceq>\<^sub>C statC" and
schirmer@12854
  2117
       is_cls_statC: "is_class G statC" and
schirmer@12854
  2118
                 ws: "ws_prog G" and
schirmer@12854
  2119
         hyp_static: "dynmethd G statC dynC sig = Some statM \<Longrightarrow> P" and
schirmer@12854
  2120
       hyp_override: "\<And> dynM. \<lbrakk>dynmethd G statC dynC sig = Some dynM;
schirmer@12854
  2121
                                 dynM\<noteq>statM;
schirmer@12854
  2122
                           G,sig\<turnstile>dynM overrides statM\<rbrakk> \<Longrightarrow> P"
wenzelm@12937
  2123
  shows P
schirmer@12854
  2124
proof -
schirmer@12854
  2125
  from subclseq is_cls_statC 
schirmer@12854
  2126
  have is_cls_dynC: "is_class G dynC" by (rule subcls_is_class2)
schirmer@12854
  2127
  then obtain dc where
schirmer@12854
  2128
    clsDynC: "class G dynC = Some dc" by blast
schirmer@12854
  2129
  from statM subclseq is_cls_statC ws 
schirmer@12854
  2130
  obtain dynM
schirmer@12854
  2131
    where dynM: "dynmethd G statC dynC sig = Some dynM"
schirmer@12854
  2132
    by (blast dest: methd_Some_dynmethd_Some)
schirmer@12854
  2133
  from dynM is_cls_dynC ws 
schirmer@12854
  2134
  show ?thesis
schirmer@12854
  2135
  proof (cases rule: dynmethd_Some_cases)
schirmer@12854
  2136
    case Static
schirmer@12854
  2137
    with hyp_static dynM statM show ?thesis by simp
schirmer@12854
  2138
  next
schirmer@12854
  2139
    case Overrides
schirmer@12854
  2140
    with hyp_override dynM statM show ?thesis by simp
schirmer@12854
  2141
  qed
schirmer@12854
  2142
qed
schirmer@12854
  2143
schirmer@12854
  2144
lemma ws_dynmethd:
wenzelm@12937
  2145
  assumes  statM: "methd G statC sig = Some statM" and
schirmer@12854
  2146
        subclseq: "G\<turnstile>dynC \<preceq>\<^sub>C statC" and
schirmer@12854
  2147
    is_cls_statC: "is_class G statC" and
schirmer@12854
  2148
              ws: "ws_prog G"
wenzelm@12937
  2149
  shows
wenzelm@12937
  2150
    "\<exists> dynM. dynmethd G statC dynC sig = Some dynM \<and>
wenzelm@12937
  2151
             is_static dynM = is_static statM \<and> G\<turnstile>resTy dynM\<preceq>resTy statM"
schirmer@12854
  2152
proof - 
schirmer@12854
  2153
  from statM subclseq is_cls_statC ws
schirmer@12854
  2154
  show ?thesis
schirmer@12854
  2155
  proof (cases rule: dynmethd_cases)
schirmer@12854
  2156
    case Static
schirmer@12854
  2157
    with statM 
schirmer@12854
  2158
    show ?thesis
schirmer@12854
  2159
      by simp
schirmer@12854
  2160
  next
schirmer@12854
  2161
    case Overrides
schirmer@12854
  2162
    with ws
schirmer@12854
  2163
    show ?thesis
schirmer@12854
  2164
      by (auto dest: ws_overrides_commonD)
schirmer@12854
  2165
  qed
schirmer@12854
  2166
qed
schirmer@12854
  2167
schirmer@12854
  2168
subsection "dynlookup"
schirmer@12854
  2169
schirmer@12854
  2170
lemma dynlookup_cases [consumes 1, case_names NullT IfaceT ClassT ArrayT]:
schirmer@12854
  2171
"\<lbrakk>dynlookup G statT dynC sig = x;
schirmer@12854
  2172
           \<lbrakk>statT = NullT       ; empty sig = x                  \<rbrakk> \<Longrightarrow> P;
schirmer@12854
  2173
  \<And> I.    \<lbrakk>statT = IfaceT I    ; dynimethd G I      dynC sig = x\<rbrakk> \<Longrightarrow> P;
schirmer@12854
  2174
  \<And> statC.\<lbrakk>statT = ClassT statC; dynmethd  G statC  dynC sig = x\<rbrakk> \<Longrightarrow> P;
schirmer@12854
  2175
  \<And> ty.   \<lbrakk>statT = ArrayT ty   ; dynmethd  G Object dynC sig = x\<rbrakk> \<Longrightarrow> P
schirmer@12854
  2176
 \<rbrakk> \<Longrightarrow> P"
schirmer@12854
  2177
by (cases statT) (auto simp add: dynlookup_def)
schirmer@12854
  2178
schirmer@12854
  2179
subsection "fields"
schirmer@12854
  2180
schirmer@12854
  2181
lemma fields_rec: "\<lbrakk>class G C = Some c; ws_prog G\<rbrakk> \<Longrightarrow>  
schirmer@12854
  2182
  fields G C = map (\<lambda>(fn,ft). ((fn,C),ft)) (cfields c) @  
schirmer@12854
  2183
  (if C = Object then [] else fields G (super c))"
schirmer@12854
  2184
apply (simp only: fields_def)
schirmer@12854
  2185
apply (erule class_rec [THEN trans])
schirmer@12854
  2186
apply assumption
schirmer@12854
  2187
apply clarsimp
schirmer@12854
  2188
done
schirmer@12854
  2189
schirmer@12854
  2190
(* local lemma *)
schirmer@12854
  2191
lemma fields_norec: 
schirmer@12854
  2192
"\<lbrakk>class G fd = Some c; ws_prog G;  table_of (cfields c) fn = Some f\<rbrakk> 
schirmer@12854
  2193
 \<Longrightarrow> table_of (fields G fd) (fn,fd) = Some f"
schirmer@12854
  2194
apply (subst fields_rec)
schirmer@12854
  2195
apply assumption+
nipkow@14025
  2196
apply (subst map_of_append)
nipkow@14025
  2197
apply (rule disjI1 [THEN map_add_Some_iff [THEN iffD2]])
schirmer@12854
  2198
apply (auto elim: table_of_map2_SomeI)
schirmer@12854
  2199
done
schirmer@12854
  2200
schirmer@12854
  2201
(* local lemma *)
schirmer@12854
  2202
lemma table_of_fieldsD:
schirmer@12854
  2203
"table_of (map (\<lambda>(fn,ft). ((fn,C),ft)) (cfields c)) efn = Some f
schirmer@12854
  2204
\<Longrightarrow> (declclassf efn) = C \<and> table_of (cfields c) (fname efn) = Some f"
schirmer@12854
  2205
apply (case_tac "efn")
schirmer@12854
  2206
by auto
schirmer@12854
  2207
schirmer@12854
  2208
lemma fields_declC: 
schirmer@12854
  2209
 "\<lbrakk>table_of (fields G C) efn = Some f; ws_prog G; is_class G C\<rbrakk> \<Longrightarrow>  
schirmer@12854
  2210
  (\<exists>d. class G (declclassf efn) = Some d \<and> 
schirmer@12854
  2211
                    table_of (cfields d) (fname efn)=Some f) \<and> 
schirmer@12854
  2212
  G\<turnstile>C \<preceq>\<^sub>C (declclassf efn)  \<and> table_of (fields G (declclassf efn)) efn = Some f"
schirmer@12854
  2213
apply (erule make_imp)
schirmer@12854
  2214
apply (rule ws_subcls1_induct, assumption, assumption)
schirmer@12854
  2215
apply (subst fields_rec, assumption)
schirmer@12854
  2216
apply clarify
nipkow@14025
  2217
apply (simp only: map_of_append)
schirmer@12854
  2218
apply (case_tac "table_of (map (split (\<lambda>fn. Pair (fn, Ca))) (cfields c)) efn") 
nipkow@14025
  2219
apply   (force intro:rtrancl_into_rtrancl2 simp add: map_add_def)
schirmer@12854
  2220
schirmer@12854
  2221
apply   (frule_tac fd="Ca" in fields_norec)
schirmer@12854
  2222
apply     assumption
schirmer@12854
  2223
apply     blast
schirmer@12854
  2224
apply   (frule table_of_fieldsD)  
schirmer@12854
  2225
apply   (frule_tac n="table_of (map (split (\<lambda>fn. Pair (fn, Ca))) (cfields c))"
schirmer@12854
  2226
              and  m="table_of (if Ca = Object then [] else fields G (super c))"
nipkow@14025
  2227
         in map_add_find_right)
schirmer@12854
  2228
apply   (case_tac "efn")
schirmer@12854
  2229
apply   (simp)
schirmer@12854
  2230
done
schirmer@12854
  2231
schirmer@12854
  2232
lemma fields_emptyI: "\<And>y. \<lbrakk>ws_prog G; class G C = Some c;cfields c = [];  
schirmer@12854
  2233
  C \<noteq> Object \<longrightarrow> class G (super c) = Some y \<and> fields G (super c) = []\<rbrakk> \<Longrightarrow>  
schirmer@12854
  2234
  fields G C = []"
schirmer@12854
  2235
apply (subst fields_rec)
schirmer@12854
  2236
apply assumption
schirmer@12854
  2237
apply auto
schirmer@12854
  2238
done
schirmer@12854
  2239
schirmer@12854
  2240
(* easier than with table_of *)
schirmer@12854
  2241
lemma fields_mono_lemma: 
schirmer@12854
  2242
"\<lbrakk>x \<in> set (fields G C); G\<turnstile>D \<preceq>\<^sub>C C; ws_prog G\<rbrakk> 
schirmer@12854
  2243
 \<Longrightarrow> x \<in> set (fields G D)"
schirmer@12854
  2244
apply (erule make_imp)
schirmer@12854
  2245
apply (erule converse_rtrancl_induct)
schirmer@12854
  2246
apply  fast
schirmer@12854
  2247
apply (drule subcls1D)
schirmer@12854
  2248
apply clarsimp
schirmer@12854
  2249
apply (subst fields_rec)
schirmer@12854
  2250
apply   auto
schirmer@12854
  2251
done
schirmer@12854
  2252
schirmer@12854
  2253
schirmer@12854
  2254
lemma ws_unique_fields_lemma: 
schirmer@12854
  2255
 "\<lbrakk>(efn,fd)  \<in> set (fields G (super c)); fc \<in> set (cfields c); ws_prog G;  
schirmer@12854
  2256
   fname efn = fname fc; declclassf efn = C;
schirmer@12854
  2257
   class G C = Some c; C \<noteq> Object; class G (super c) = Some d\<rbrakk> \<Longrightarrow> R"
schirmer@12854
  2258
apply (frule_tac ws_prog_cdeclD [THEN conjunct2], assumption, assumption)
schirmer@12854
  2259
apply (drule_tac weak_map_of_SomeI)
schirmer@12854
  2260
apply (frule_tac subcls1I [THEN subcls1_irrefl], assumption, assumption)
schirmer@12854
  2261
apply (auto dest: fields_declC [THEN conjunct2 [THEN conjunct1[THEN rtranclD]]])
schirmer@12854
  2262
done
schirmer@12854
  2263
schirmer@12854
  2264
lemma ws_unique_fields: "\<lbrakk>is_class G C; ws_prog G; 
schirmer@12854
  2265
       \<And>C c. \<lbrakk>class G C = Some c\<rbrakk> \<Longrightarrow> unique (cfields c) \<rbrakk> \<Longrightarrow>
schirmer@12854
  2266
      unique (fields G C)" 
schirmer@12854
  2267
apply (rule ws_subcls1_induct, assumption, assumption)
schirmer@12854
  2268
apply (subst fields_rec, assumption)            
paulson@13585
  2269
apply (auto intro!: unique_map_inj inj_onI 
paulson@13585
  2270
            elim!: unique_append ws_unique_fields_lemma fields_norec)
schirmer@12854
  2271
done
schirmer@12854
  2272
schirmer@12854
  2273
schirmer@12854
  2274
subsection "accfield"
schirmer@12854
  2275
schirmer@12854
  2276
lemma accfield_fields: 
schirmer@12854
  2277
 "accfield G S C fn = Some f 
schirmer@12854
  2278
  \<Longrightarrow> table_of (fields G C) (fn, declclass f) = Some (fld f)"
schirmer@12854
  2279
apply (simp only: accfield_def Let_def)
schirmer@12854
  2280
apply (rule table_of_remap_SomeD)
schirmer@12854
  2281
apply (auto dest: filter_tab_SomeD)
schirmer@12854
  2282
done
schirmer@12854
  2283
schirmer@12854
  2284
schirmer@12854
  2285
lemma accfield_declC_is_class: 
schirmer@12854
  2286
 "\<lbrakk>is_class G C; accfield G S C en = Some (fd, f); ws_prog G\<rbrakk> \<Longrightarrow>  
schirmer@12854
  2287
   is_class G fd"
schirmer@12854
  2288
apply (drule accfield_fields)
schirmer@12854
  2289
apply (drule fields_declC [THEN conjunct1], assumption)
schirmer@12854
  2290
apply auto
schirmer@12854
  2291
done
schirmer@12854
  2292
schirmer@12854
  2293
lemma accfield_accessibleD: 
schirmer@12854
  2294
  "accfield G S C fn = Some f \<Longrightarrow> G\<turnstile>Field fn f of C accessible_from S"
schirmer@12854
  2295
by (auto simp add: accfield_def Let_def)
schirmer@12854
  2296
schirmer@12854
  2297
subsection "is methd"
schirmer@12854
  2298
schirmer@12854
  2299
lemma is_methdI: 
schirmer@12854
  2300
"\<lbrakk>class G C = Some y; methd G C sig = Some b\<rbrakk> \<Longrightarrow> is_methd G C sig"
schirmer@12854
  2301
apply (unfold is_methd_def)
schirmer@12854
  2302
apply auto
schirmer@12854
  2303
done
schirmer@12854
  2304
schirmer@12854
  2305
lemma is_methdD: 
schirmer@12854
  2306
"is_methd G C sig \<Longrightarrow> class G C \<noteq> None \<and> methd G C sig \<noteq> None"
schirmer@12854
  2307
apply (unfold is_methd_def)
schirmer@12854
  2308
apply auto
schirmer@12854
  2309
done
schirmer@12854
  2310
schirmer@12854
  2311
lemma finite_is_methd: 
schirmer@12854
  2312
 "ws_prog G \<Longrightarrow> finite (Collect (split (is_methd G)))"
schirmer@12854
  2313
apply (unfold is_methd_def)
schirmer@12854
  2314
apply (subst SetCompr_Sigma_eq)
schirmer@12854
  2315
apply (rule finite_is_class [THEN finite_SigmaI])
schirmer@12854
  2316
apply (simp only: mem_Collect_eq)
schirmer@12854
  2317
apply (fold dom_def)
schirmer@12854
  2318
apply (erule finite_dom_methd)
schirmer@12854
  2319
apply assumption
schirmer@12854
  2320
done
schirmer@12854
  2321
schirmer@12854
  2322
section "calculation of the superclasses of a class"
schirmer@12854
  2323
schirmer@12854
  2324
constdefs 
schirmer@12854
  2325
 superclasses:: "prog \<Rightarrow> qtname \<Rightarrow> qtname set"
schirmer@12854
  2326
 "superclasses G C \<equiv> class_rec (G,C) {} 
schirmer@12854
  2327
                       (\<lambda> C c superclss. (if C=Object 
schirmer@12854
  2328
                                            then {} 
schirmer@12854
  2329
                                            else insert (super c) superclss))"
schirmer@12854
  2330
   
schirmer@12854
  2331
lemma superclasses_rec: "\<lbrakk>class G C = Some c; ws_prog G\<rbrakk> \<Longrightarrow>  
schirmer@12854
  2332
 superclasses G C 
schirmer@12854
  2333
 = (if (C=Object) 
schirmer@12854
  2334
       then {}
schirmer@12854
  2335
       else insert (super c) (superclasses G (super c)))"
schirmer@12854
  2336
apply (unfold superclasses_def)
schirmer@12854
  2337
apply (erule class_rec [THEN trans], assumption)
schirmer@12854
  2338
apply (simp)
schirmer@12854
  2339
done
schirmer@12854
  2340
schirmer@12854
  2341
lemma superclasses_mono:
schirmer@12854
  2342
"\<lbrakk>G\<turnstile>C \<prec>\<^sub>C D;ws_prog G; class G C = Some c;
schirmer@12854
  2343
  \<And> C c. \<lbrakk>class G C = Some c;C\<noteq>Object\<rbrakk> \<Longrightarrow> \<exists> sc. class G (super c) = Some sc;
schirmer@12854
  2344
  x\<in>superclasses G D 
schirmer@12854
  2345
\<rbrakk> \<Longrightarrow> x\<in>superclasses G C" 
schirmer@12854
  2346
proof -
schirmer@12854
  2347
  
schirmer@12854
  2348
  assume     ws: "ws_prog G"          and 
schirmer@12854
  2349
          cls_C: "class G C = Some c" and
schirmer@12854
  2350
             wf: "\<And>C c. \<lbrakk>class G C = Some c; C \<noteq> Object\<rbrakk>
schirmer@12854
  2351
                  \<Longrightarrow> \<exists>sc. class G (super c) = Some sc"
schirmer@12854
  2352
  assume clsrel: "G\<turnstile>C\<prec>\<^sub>C D"           
schirmer@12854
  2353
  thus "\<And> c. \<lbrakk>class G C = Some c; x\<in>superclasses G D\<rbrakk>\<Longrightarrow>
schirmer@12854
  2354
        x\<in>superclasses G C" (is "PROP ?P C"  
schirmer@12854
  2355
                             is "\<And> c. ?CLS C c \<Longrightarrow> ?SUP D \<Longrightarrow> ?SUP C")
schirmer@12854
  2356
  proof (induct ?P C  rule: converse_trancl_induct)
schirmer@12854
  2357
    fix C c
schirmer@12854
  2358
    assume "G\<turnstile>C\<prec>\<^sub>C\<^sub>1D" "class G C = Some c" "x \<in> superclasses G D"
schirmer@12854
  2359
    with wf ws show "?SUP C"
schirmer@12854
  2360
      by (auto    intro: no_subcls1_Object 
schirmer@12854
  2361
               simp add: superclasses_rec subcls1_def)
schirmer@12854
  2362
  next
schirmer@12854
  2363
    fix C S c
schirmer@12854
  2364
    assume clsrel': "G\<turnstile>C \<prec>\<^sub>C\<^sub>1 S" "G\<turnstile>S \<prec>\<^sub>C D"
schirmer@12854
  2365
       and    hyp : "\<And> s. \<lbrakk>class G S = Some s; x \<in> superclasses G D\<rbrakk>
schirmer@12854
  2366
                           \<Longrightarrow> x \<in> superclasses G S"
schirmer@12854
  2367
       and  cls_C': "class G C = Some c"
schirmer@12854
  2368
       and       x: "x \<in> superclasses G D"
schirmer@12854
  2369
    moreover note wf ws
schirmer@12854
  2370
    moreover from calculation 
schirmer@12854
  2371
    have "?SUP S" 
schirmer@12854
  2372
      by (force intro: no_subcls1_Object simp add: subcls1_def)
schirmer@12854
  2373
    moreover from calculation 
schirmer@12854
  2374
    have "super c = S" 
schirmer@12854
  2375
      by (auto intro: no_subcls1_Object simp add: subcls1_def)
schirmer@12854
  2376
    ultimately show "?SUP C" 
schirmer@12854
  2377
      by (auto intro: no_subcls1_Object simp add: superclasses_rec)
schirmer@12854
  2378
  qed
schirmer@12854
  2379
qed
schirmer@12854
  2380
schirmer@12854
  2381
lemma subclsEval:
schirmer@12854
  2382
"\<lbrakk>G\<turnstile>C \<prec>\<^sub>C D;ws_prog G; class G C = Some c;
schirmer@12854
  2383
  \<And> C c. \<lbrakk>class G C = Some c;C\<noteq>Object\<rbrakk> \<Longrightarrow> \<exists> sc. class G (super c) = Some sc 
schirmer@12854
  2384
 \<rbrakk> \<Longrightarrow> D\<in>superclasses G C" 
schirmer@12854
  2385
proof -
schirmer@12854
  2386
  note converse_trancl_induct 
schirmer@12854
  2387
       = converse_trancl_induct [consumes 1,case_names Single Step]
schirmer@12854
  2388
  assume 
schirmer@12854
  2389
             ws: "ws_prog G"          and 
schirmer@12854
  2390
          cls_C: "class G C = Some c" and
schirmer@12854
  2391
             wf: "\<And>C c. \<lbrakk>class G C = Some c; C \<noteq> Object\<rbrakk>
schirmer@12854
  2392
                  \<Longrightarrow> \<exists>sc. class G (super c) = Some sc"
schirmer@12854
  2393
  assume clsrel: "G\<turnstile>C\<prec>\<^sub>C D"           
schirmer@12854
  2394
  thus "\<And> c. class G C = Some c\<Longrightarrow> D\<in>superclasses G C" 
schirmer@12854
  2395
    (is "PROP ?P C"  is "\<And> c. ?CLS C c  \<Longrightarrow> ?SUP C")
schirmer@12854
  2396
  proof (induct ?P C  rule: converse_trancl_induct)
schirmer@12854
  2397
    fix C c
schirmer@12854
  2398
    assume "G\<turnstile>C \<prec>\<^sub>C\<^sub>1 D" "class G C = Some c"
schirmer@12854
  2399
    with ws wf show "?SUP C"
schirmer@12854
  2400
      by (auto intro: no_subcls1_Object simp add: superclasses_rec subcls1_def)
schirmer@12854
  2401
  next
schirmer@12854
  2402
    fix C S c
schirmer@12854
  2403
    assume "G\<turnstile>C \<prec>\<^sub>C\<^sub>1 S" "G\<turnstile>S\<prec>\<^sub>C D" 
schirmer@12854
  2404
           "\<And>s. class G S = Some s \<Longrightarrow> D \<in> superclasses G S"
schirmer@12854
  2405
           "class G C = Some c" 
schirmer@12854
  2406
    with ws wf show "?SUP C"
schirmer@12854
  2407
      by - (rule superclasses_mono,
schirmer@12854
  2408
            auto dest: no_subcls1_Object simp add: subcls1_def )
schirmer@12854
  2409
  qed
schirmer@12854
  2410
qed
schirmer@12854
  2411
kleing@14981
  2412
end