| author | berghofe |
| Fri, 16 Apr 2004 18:45:56 +0200 | |
| changeset 14598 | 7009f59711e3 |
| parent 13339 | 0f89104dd377 |
| child 16417 | 9bc16273c2d4 |
| permissions | -rw-r--r-- |
| 1478 | 1 |
(* Title: ZF/Coind/ECR.thy |
| 915 | 2 |
ID: $Id$ |
| 1478 | 3 |
Author: Jacob Frost, Cambridge University Computer Laboratory |
| 915 | 4 |
Copyright 1995 University of Cambridge |
5 |
*) |
|
6 |
||
| 12595 | 7 |
theory ECR = Static + Dynamic: |
| 915 | 8 |
|
9 |
(* The extended correspondence relation *) |
|
10 |
||
11 |
consts |
|
| 1401 | 12 |
HasTyRel :: i |
| 915 | 13 |
coinductive |
14 |
domains "HasTyRel" <= "Val * Ty" |
|
| 12595 | 15 |
intros |
16 |
htr_constI [intro!]: |
|
17 |
"[| c \<in> Const; t \<in> Ty; isof(c,t) |] ==> <v_const(c),t> \<in> HasTyRel" |
|
18 |
htr_closI [intro]: |
|
19 |
"[| x \<in> ExVar; e \<in> Exp; t \<in> Ty; ve \<in> ValEnv; te \<in> TyEnv; |
|
20 |
<te,e_fn(x,e),t> \<in> ElabRel; |
|
| 1478 | 21 |
ve_dom(ve) = te_dom(te); |
| 12595 | 22 |
{<ve_app(ve,y),te_app(te,y)>.y \<in> ve_dom(ve)} \<in> Pow(HasTyRel) |]
|
23 |
==> <v_clos(x,e,ve),t> \<in> HasTyRel" |
|
| 6117 | 24 |
monos Pow_mono |
| 12595 | 25 |
type_intros Val_ValEnv.intros |
| 915 | 26 |
|
27 |
(* Pointwise extension to environments *) |
|
28 |
||
| 12595 | 29 |
constdefs |
30 |
hastyenv :: "[i,i] => o" |
|
31 |
"hastyenv(ve,te) == |
|
32 |
ve_dom(ve) = te_dom(te) & |
|
33 |
(\<forall>x \<in> ve_dom(ve). <ve_app(ve,x),te_app(te,x)> \<in> HasTyRel)" |
|
34 |
||
35 |
(* Specialised co-induction rule *) |
|
36 |
||
37 |
lemma htr_closCI [intro]: |
|
38 |
"[| x \<in> ExVar; e \<in> Exp; t \<in> Ty; ve \<in> ValEnv; te \<in> TyEnv; |
|
39 |
<te, e_fn(x, e), t> \<in> ElabRel; ve_dom(ve) = te_dom(te); |
|
40 |
{<ve_app(ve,y),te_app(te,y)>.y \<in> ve_dom(ve)} \<in>
|
|
41 |
Pow({<v_clos(x,e,ve),t>} Un HasTyRel) |]
|
|
42 |
==> <v_clos(x, e, ve),t> \<in> HasTyRel" |
|
|
13339
0f89104dd377
Fixed quantified variable name preservation for ball and bex (bounded quants)
paulson
parents:
12610
diff
changeset
|
43 |
apply (rule singletonI [THEN HasTyRel.coinduct], auto) |
| 12595 | 44 |
done |
45 |
||
46 |
(* Specialised elimination rules *) |
|
47 |
||
| 12610 | 48 |
inductive_cases |
49 |
htr_constE [elim!]: "<v_const(c),t> \<in> HasTyRel" |
|
50 |
and htr_closE [elim]: "<v_clos(x,e,ve),t> \<in> HasTyRel" |
|
| 12595 | 51 |
|
52 |
||
53 |
(* Properties of the pointwise extension to environments *) |
|
54 |
||
55 |
lemmas HasTyRel_non_zero = |
|
56 |
HasTyRel.dom_subset [THEN subsetD, THEN SigmaD1, THEN ValNEE, standard] |
|
57 |
||
58 |
lemma hastyenv_owr: |
|
59 |
"[| ve \<in> ValEnv; te \<in> TyEnv; hastyenv(ve,te); <v,t> \<in> HasTyRel |] |
|
60 |
==> hastyenv(ve_owr(ve,x,v),te_owr(te,x,t))" |
|
61 |
by (auto simp add: hastyenv_def ve_app_owr HasTyRel_non_zero) |
|
62 |
||
63 |
lemma basic_consistency_lem: |
|
64 |
"[| ve \<in> ValEnv; te \<in> TyEnv; isofenv(ve,te) |] ==> hastyenv(ve,te)" |
|
65 |
apply (unfold isofenv_def hastyenv_def) |
|
66 |
apply (force intro: te_appI ve_domI) |
|
67 |
done |
|
68 |
||
69 |
||
70 |
(* ############################################################ *) |
|
71 |
(* The Consistency theorem *) |
|
72 |
(* ############################################################ *) |
|
73 |
||
74 |
lemma consistency_const: |
|
75 |
"[| c \<in> Const; hastyenv(ve,te);<te,e_const(c),t> \<in> ElabRel |] |
|
76 |
==> <v_const(c), t> \<in> HasTyRel" |
|
77 |
by blast |
|
78 |
||
79 |
||
80 |
lemma consistency_var: |
|
81 |
"[| x \<in> ve_dom(ve); hastyenv(ve,te); <te,e_var(x),t> \<in> ElabRel |] ==> |
|
82 |
<ve_app(ve,x),t> \<in> HasTyRel" |
|
83 |
by (unfold hastyenv_def, blast) |
|
84 |
||
85 |
lemma consistency_fn: |
|
86 |
"[| ve \<in> ValEnv; x \<in> ExVar; e \<in> Exp; hastyenv(ve,te); |
|
87 |
<te,e_fn(x,e),t> \<in> ElabRel |
|
88 |
|] ==> <v_clos(x, e, ve), t> \<in> HasTyRel" |
|
89 |
by (unfold hastyenv_def, blast) |
|
90 |
||
91 |
declare ElabRel.dom_subset [THEN subsetD, dest] |
|
92 |
||
93 |
declare Ty.intros [simp, intro!] |
|
94 |
declare TyEnv.intros [simp, intro!] |
|
95 |
declare Val_ValEnv.intros [simp, intro!] |
|
96 |
||
97 |
lemma consistency_fix: |
|
98 |
"[| ve \<in> ValEnv; x \<in> ExVar; e \<in> Exp; f \<in> ExVar; cl \<in> Val; |
|
99 |
v_clos(x,e,ve_owr(ve,f,cl)) = cl; |
|
100 |
hastyenv(ve,te); <te,e_fix(f,x,e),t> \<in> ElabRel |] ==> |
|
101 |
<cl,t> \<in> HasTyRel" |
|
102 |
apply (unfold hastyenv_def) |
|
|
13339
0f89104dd377
Fixed quantified variable name preservation for ball and bex (bounded quants)
paulson
parents:
12610
diff
changeset
|
103 |
apply (erule elab_fixE, safe) |
| 12595 | 104 |
apply (rule subst, assumption) |
105 |
apply (rule_tac te="te_owr(te, f, t_fun(t1, t2))" in htr_closCI) |
|
106 |
apply simp_all |
|
107 |
apply (blast intro: ve_owrI) |
|
108 |
apply (rule ElabRel.fnI) |
|
|
13339
0f89104dd377
Fixed quantified variable name preservation for ball and bex (bounded quants)
paulson
parents:
12610
diff
changeset
|
109 |
apply (simp_all add: ValNEE, force) |
| 12595 | 110 |
done |
111 |
||
112 |
||
113 |
lemma consistency_app1: |
|
114 |
"[| ve \<in> ValEnv; e1 \<in> Exp; e2 \<in> Exp; c1 \<in> Const; c2 \<in> Const; |
|
115 |
<ve,e1,v_const(c1)> \<in> EvalRel; |
|
116 |
\<forall>t te. |
|
117 |
hastyenv(ve,te) --> <te,e1,t> \<in> ElabRel --> <v_const(c1),t> \<in> HasTyRel; |
|
118 |
<ve, e2, v_const(c2)> \<in> EvalRel; |
|
119 |
\<forall>t te. |
|
120 |
hastyenv(ve,te) --> <te,e2,t> \<in> ElabRel --> <v_const(c2),t> \<in> HasTyRel; |
|
121 |
hastyenv(ve, te); |
|
122 |
<te,e_app(e1,e2),t> \<in> ElabRel |] |
|
123 |
==> <v_const(c_app(c1, c2)),t> \<in> HasTyRel" |
|
124 |
by (blast intro!: c_appI intro: isof_app) |
|
125 |
||
126 |
lemma consistency_app2: |
|
127 |
"[| ve \<in> ValEnv; vem \<in> ValEnv; e1 \<in> Exp; e2 \<in> Exp; em \<in> Exp; xm \<in> ExVar; |
|
128 |
v \<in> Val; |
|
129 |
<ve,e1,v_clos(xm,em,vem)> \<in> EvalRel; |
|
130 |
\<forall>t te. hastyenv(ve,te) --> |
|
131 |
<te,e1,t> \<in> ElabRel --> <v_clos(xm,em,vem),t> \<in> HasTyRel; |
|
132 |
<ve,e2,v2> \<in> EvalRel; |
|
133 |
\<forall>t te. hastyenv(ve,te) --> <te,e2,t> \<in> ElabRel --> <v2,t> \<in> HasTyRel; |
|
134 |
<ve_owr(vem,xm,v2),em,v> \<in> EvalRel; |
|
135 |
\<forall>t te. hastyenv(ve_owr(vem,xm,v2),te) --> |
|
136 |
<te,em,t> \<in> ElabRel --> <v,t> \<in> HasTyRel; |
|
137 |
hastyenv(ve,te); <te,e_app(e1,e2),t> \<in> ElabRel |] |
|
138 |
==> <v,t> \<in> HasTyRel" |
|
139 |
apply (erule elab_appE) |
|
140 |
apply (drule spec [THEN spec, THEN mp, THEN mp], assumption+) |
|
141 |
apply (drule spec [THEN spec, THEN mp, THEN mp], assumption+) |
|
142 |
apply (erule htr_closE) |
|
|
13339
0f89104dd377
Fixed quantified variable name preservation for ball and bex (bounded quants)
paulson
parents:
12610
diff
changeset
|
143 |
apply (erule elab_fnE, simp) |
| 12595 | 144 |
apply clarify |
145 |
apply (drule spec [THEN spec, THEN mp, THEN mp]) |
|
146 |
prefer 2 apply assumption+ |
|
|
13339
0f89104dd377
Fixed quantified variable name preservation for ball and bex (bounded quants)
paulson
parents:
12610
diff
changeset
|
147 |
apply (rule hastyenv_owr, assumption) |
| 12595 | 148 |
apply assumption |
|
13339
0f89104dd377
Fixed quantified variable name preservation for ball and bex (bounded quants)
paulson
parents:
12610
diff
changeset
|
149 |
apply (simp add: hastyenv_def, blast+) |
| 12595 | 150 |
done |
151 |
||
152 |
lemma consistency [rule_format]: |
|
153 |
"<ve,e,v> \<in> EvalRel |
|
154 |
==> (\<forall>t te. hastyenv(ve,te) --> <te,e,t> \<in> ElabRel --> <v,t> \<in> HasTyRel)" |
|
155 |
apply (erule EvalRel.induct) |
|
156 |
apply (simp_all add: consistency_const consistency_var consistency_fn |
|
157 |
consistency_fix consistency_app1) |
|
158 |
apply (blast intro: consistency_app2) |
|
159 |
done |
|
160 |
||
161 |
lemma basic_consistency: |
|
162 |
"[| ve \<in> ValEnv; te \<in> TyEnv; isofenv(ve,te); |
|
163 |
<ve,e,v_const(c)> \<in> EvalRel; <te,e,t> \<in> ElabRel |] |
|
164 |
==> isof(c,t)" |
|
165 |
by (blast dest: consistency intro!: basic_consistency_lem) |
|
| 915 | 166 |
|
167 |
end |