author | wenzelm |
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changeset 42711 | 159c4d1d4c42 |
parent 32960 | 69916a850301 |
child 46823 | 57bf0cecb366 |
permissions | -rw-r--r-- |
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(* Title: ZF/Constructible/Rank_Separation.thy |
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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*) |
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header {*Separation for Facts About Order Types, Rank Functions and |
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Well-Founded Relations*} |
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theory Rank_Separation imports Rank Rec_Separation begin |
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text{*This theory proves all instances needed for locales |
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@{text "M_ordertype"} and @{text "M_wfrank"}. But the material is not |
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needed for proving the relative consistency of AC.*} |
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subsection{*The Locale @{text "M_ordertype"}*} |
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subsubsection{*Separation for Order-Isomorphisms*} |
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lemma well_ord_iso_Reflects: |
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"REFLECTS[\<lambda>x. x\<in>A --> |
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(\<exists>y[L]. \<exists>p[L]. fun_apply(L,f,x,y) & pair(L,y,x,p) & p \<in> r), |
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\<lambda>i x. x\<in>A --> (\<exists>y \<in> Lset(i). \<exists>p \<in> Lset(i). |
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fun_apply(##Lset(i),f,x,y) & pair(##Lset(i),y,x,p) & p \<in> r)]" |
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by (intro FOL_reflections function_reflections) |
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lemma well_ord_iso_separation: |
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"[| L(A); L(f); L(r) |] |
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==> separation (L, \<lambda>x. x\<in>A --> (\<exists>y[L]. (\<exists>p[L]. |
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fun_apply(L,f,x,y) & pair(L,y,x,p) & p \<in> r)))" |
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apply (rule gen_separation_multi [OF well_ord_iso_Reflects, of "{A,f,r}"], |
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auto) |
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apply (rule_tac env="[A,f,r]" in DPow_LsetI) |
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apply (rule sep_rules | simp)+ |
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done |
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subsubsection{*Separation for @{term "obase"}*} |
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lemma obase_reflects: |
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"REFLECTS[\<lambda>a. \<exists>x[L]. \<exists>g[L]. \<exists>mx[L]. \<exists>par[L]. |
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ordinal(L,x) & membership(L,x,mx) & pred_set(L,A,a,r,par) & |
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order_isomorphism(L,par,r,x,mx,g), |
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\<lambda>i a. \<exists>x \<in> Lset(i). \<exists>g \<in> Lset(i). \<exists>mx \<in> Lset(i). \<exists>par \<in> Lset(i). |
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ordinal(##Lset(i),x) & membership(##Lset(i),x,mx) & pred_set(##Lset(i),A,a,r,par) & |
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order_isomorphism(##Lset(i),par,r,x,mx,g)]" |
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by (intro FOL_reflections function_reflections fun_plus_reflections) |
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lemma obase_separation: |
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--{*part of the order type formalization*} |
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"[| L(A); L(r) |] |
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==> separation(L, \<lambda>a. \<exists>x[L]. \<exists>g[L]. \<exists>mx[L]. \<exists>par[L]. |
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ordinal(L,x) & membership(L,x,mx) & pred_set(L,A,a,r,par) & |
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order_isomorphism(L,par,r,x,mx,g))" |
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apply (rule gen_separation_multi [OF obase_reflects, of "{A,r}"], auto) |
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apply (rule_tac env="[A,r]" in DPow_LsetI) |
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apply (rule ordinal_iff_sats sep_rules | simp)+ |
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done |
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subsubsection{*Separation for a Theorem about @{term "obase"}*} |
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lemma obase_equals_reflects: |
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"REFLECTS[\<lambda>x. x\<in>A --> ~(\<exists>y[L]. \<exists>g[L]. |
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ordinal(L,y) & (\<exists>my[L]. \<exists>pxr[L]. |
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membership(L,y,my) & pred_set(L,A,x,r,pxr) & |
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order_isomorphism(L,pxr,r,y,my,g))), |
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\<lambda>i x. x\<in>A --> ~(\<exists>y \<in> Lset(i). \<exists>g \<in> Lset(i). |
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ordinal(##Lset(i),y) & (\<exists>my \<in> Lset(i). \<exists>pxr \<in> Lset(i). |
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membership(##Lset(i),y,my) & pred_set(##Lset(i),A,x,r,pxr) & |
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order_isomorphism(##Lset(i),pxr,r,y,my,g)))]" |
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by (intro FOL_reflections function_reflections fun_plus_reflections) |
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lemma obase_equals_separation: |
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"[| L(A); L(r) |] |
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==> separation (L, \<lambda>x. x\<in>A --> ~(\<exists>y[L]. \<exists>g[L]. |
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ordinal(L,y) & (\<exists>my[L]. \<exists>pxr[L]. |
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membership(L,y,my) & pred_set(L,A,x,r,pxr) & |
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order_isomorphism(L,pxr,r,y,my,g))))" |
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apply (rule gen_separation_multi [OF obase_equals_reflects, of "{A,r}"], auto) |
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apply (rule_tac env="[A,r]" in DPow_LsetI) |
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apply (rule sep_rules | simp)+ |
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done |
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subsubsection{*Replacement for @{term "omap"}*} |
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lemma omap_reflects: |
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"REFLECTS[\<lambda>z. \<exists>a[L]. a\<in>B & (\<exists>x[L]. \<exists>g[L]. \<exists>mx[L]. \<exists>par[L]. |
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ordinal(L,x) & pair(L,a,x,z) & membership(L,x,mx) & |
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pred_set(L,A,a,r,par) & order_isomorphism(L,par,r,x,mx,g)), |
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\<lambda>i z. \<exists>a \<in> Lset(i). a\<in>B & (\<exists>x \<in> Lset(i). \<exists>g \<in> Lset(i). \<exists>mx \<in> Lset(i). |
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\<exists>par \<in> Lset(i). |
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ordinal(##Lset(i),x) & pair(##Lset(i),a,x,z) & |
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membership(##Lset(i),x,mx) & pred_set(##Lset(i),A,a,r,par) & |
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order_isomorphism(##Lset(i),par,r,x,mx,g))]" |
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by (intro FOL_reflections function_reflections fun_plus_reflections) |
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lemma omap_replacement: |
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"[| L(A); L(r) |] |
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==> strong_replacement(L, |
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\<lambda>a z. \<exists>x[L]. \<exists>g[L]. \<exists>mx[L]. \<exists>par[L]. |
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ordinal(L,x) & pair(L,a,x,z) & membership(L,x,mx) & |
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pred_set(L,A,a,r,par) & order_isomorphism(L,par,r,x,mx,g))" |
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apply (rule strong_replacementI) |
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apply (rule_tac u="{A,r,B}" in gen_separation_multi [OF omap_reflects], auto) |
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apply (rule_tac env="[A,B,r]" in DPow_LsetI) |
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apply (rule sep_rules | simp)+ |
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done |
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subsection{*Instantiating the locale @{text M_ordertype}*} |
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text{*Separation (and Strong Replacement) for basic set-theoretic constructions |
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such as intersection, Cartesian Product and image.*} |
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lemma M_ordertype_axioms_L: "M_ordertype_axioms(L)" |
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apply (rule M_ordertype_axioms.intro) |
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apply (assumption | rule well_ord_iso_separation |
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obase_separation obase_equals_separation |
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omap_replacement)+ |
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done |
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theorem M_ordertype_L: "PROP M_ordertype(L)" |
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apply (rule M_ordertype.intro) |
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apply (rule M_basic_L) |
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apply (rule M_ordertype_axioms_L) |
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done |
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subsection{*The Locale @{text "M_wfrank"}*} |
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subsubsection{*Separation for @{term "wfrank"}*} |
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lemma wfrank_Reflects: |
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"REFLECTS[\<lambda>x. \<forall>rplus[L]. tran_closure(L,r,rplus) --> |
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~ (\<exists>f[L]. M_is_recfun(L, %x f y. is_range(L,f,y), rplus, x, f)), |
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\<lambda>i x. \<forall>rplus \<in> Lset(i). tran_closure(##Lset(i),r,rplus) --> |
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~ (\<exists>f \<in> Lset(i). |
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M_is_recfun(##Lset(i), %x f y. is_range(##Lset(i),f,y), |
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rplus, x, f))]" |
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by (intro FOL_reflections function_reflections is_recfun_reflection tran_closure_reflection) |
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lemma wfrank_separation: |
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"L(r) ==> |
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separation (L, \<lambda>x. \<forall>rplus[L]. tran_closure(L,r,rplus) --> |
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~ (\<exists>f[L]. M_is_recfun(L, %x f y. is_range(L,f,y), rplus, x, f)))" |
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apply (rule gen_separation [OF wfrank_Reflects], simp) |
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apply (rule_tac env="[r]" in DPow_LsetI) |
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apply (rule sep_rules tran_closure_iff_sats is_recfun_iff_sats | simp)+ |
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done |
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subsubsection{*Replacement for @{term "wfrank"}*} |
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lemma wfrank_replacement_Reflects: |
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"REFLECTS[\<lambda>z. \<exists>x[L]. x \<in> A & |
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(\<forall>rplus[L]. tran_closure(L,r,rplus) --> |
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(\<exists>y[L]. \<exists>f[L]. pair(L,x,y,z) & |
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M_is_recfun(L, %x f y. is_range(L,f,y), rplus, x, f) & |
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is_range(L,f,y))), |
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\<lambda>i z. \<exists>x \<in> Lset(i). x \<in> A & |
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(\<forall>rplus \<in> Lset(i). tran_closure(##Lset(i),r,rplus) --> |
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(\<exists>y \<in> Lset(i). \<exists>f \<in> Lset(i). pair(##Lset(i),x,y,z) & |
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M_is_recfun(##Lset(i), %x f y. is_range(##Lset(i),f,y), rplus, x, f) & |
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is_range(##Lset(i),f,y)))]" |
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by (intro FOL_reflections function_reflections fun_plus_reflections |
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is_recfun_reflection tran_closure_reflection) |
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lemma wfrank_strong_replacement: |
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"L(r) ==> |
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strong_replacement(L, \<lambda>x z. |
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\<forall>rplus[L]. tran_closure(L,r,rplus) --> |
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(\<exists>y[L]. \<exists>f[L]. pair(L,x,y,z) & |
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M_is_recfun(L, %x f y. is_range(L,f,y), rplus, x, f) & |
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is_range(L,f,y)))" |
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apply (rule strong_replacementI) |
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apply (rule_tac u="{r,B}" |
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in gen_separation_multi [OF wfrank_replacement_Reflects], |
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auto) |
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apply (rule_tac env="[r,B]" in DPow_LsetI) |
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apply (rule sep_rules tran_closure_iff_sats is_recfun_iff_sats | simp)+ |
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done |
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subsubsection{*Separation for Proving @{text Ord_wfrank_range}*} |
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lemma Ord_wfrank_Reflects: |
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"REFLECTS[\<lambda>x. \<forall>rplus[L]. tran_closure(L,r,rplus) --> |
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~ (\<forall>f[L]. \<forall>rangef[L]. |
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is_range(L,f,rangef) --> |
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M_is_recfun(L, \<lambda>x f y. is_range(L,f,y), rplus, x, f) --> |
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ordinal(L,rangef)), |
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\<lambda>i x. \<forall>rplus \<in> Lset(i). tran_closure(##Lset(i),r,rplus) --> |
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~ (\<forall>f \<in> Lset(i). \<forall>rangef \<in> Lset(i). |
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is_range(##Lset(i),f,rangef) --> |
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M_is_recfun(##Lset(i), \<lambda>x f y. is_range(##Lset(i),f,y), |
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rplus, x, f) --> |
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ordinal(##Lset(i),rangef))]" |
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by (intro FOL_reflections function_reflections is_recfun_reflection |
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tran_closure_reflection ordinal_reflection) |
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lemma Ord_wfrank_separation: |
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"L(r) ==> |
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separation (L, \<lambda>x. |
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\<forall>rplus[L]. tran_closure(L,r,rplus) --> |
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~ (\<forall>f[L]. \<forall>rangef[L]. |
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is_range(L,f,rangef) --> |
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M_is_recfun(L, \<lambda>x f y. is_range(L,f,y), rplus, x, f) --> |
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ordinal(L,rangef)))" |
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apply (rule gen_separation [OF Ord_wfrank_Reflects], simp) |
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apply (rule_tac env="[r]" in DPow_LsetI) |
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apply (rule sep_rules tran_closure_iff_sats is_recfun_iff_sats | simp)+ |
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done |
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subsubsection{*Instantiating the locale @{text M_wfrank}*} |
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lemma M_wfrank_axioms_L: "M_wfrank_axioms(L)" |
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apply (rule M_wfrank_axioms.intro) |
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apply (assumption | rule |
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wfrank_separation wfrank_strong_replacement Ord_wfrank_separation)+ |
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done |
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theorem M_wfrank_L: "PROP M_wfrank(L)" |
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apply (rule M_wfrank.intro) |
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apply (rule M_trancl_L) |
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apply (rule M_wfrank_axioms_L) |
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done |
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lemmas exists_wfrank = M_wfrank.exists_wfrank [OF M_wfrank_L] |
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and M_wellfoundedrank = M_wfrank.M_wellfoundedrank [OF M_wfrank_L] |
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and Ord_wfrank_range = M_wfrank.Ord_wfrank_range [OF M_wfrank_L] |
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and Ord_range_wellfoundedrank = M_wfrank.Ord_range_wellfoundedrank [OF M_wfrank_L] |
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and function_wellfoundedrank = M_wfrank.function_wellfoundedrank [OF M_wfrank_L] |
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and domain_wellfoundedrank = M_wfrank.domain_wellfoundedrank [OF M_wfrank_L] |
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and wellfoundedrank_type = M_wfrank.wellfoundedrank_type [OF M_wfrank_L] |
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and Ord_wellfoundedrank = M_wfrank.Ord_wellfoundedrank [OF M_wfrank_L] |
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and wellfoundedrank_eq = M_wfrank.wellfoundedrank_eq [OF M_wfrank_L] |
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and wellfoundedrank_lt = M_wfrank.wellfoundedrank_lt [OF M_wfrank_L] |
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and wellfounded_imp_subset_rvimage = M_wfrank.wellfounded_imp_subset_rvimage [OF M_wfrank_L] |
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and wellfounded_imp_wf = M_wfrank.wellfounded_imp_wf [OF M_wfrank_L] |
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and wellfounded_on_imp_wf_on = M_wfrank.wellfounded_on_imp_wf_on [OF M_wfrank_L] |
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and wf_abs = M_wfrank.wf_abs [OF M_wfrank_L] |
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and wf_on_abs = M_wfrank.wf_on_abs [OF M_wfrank_L] |
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end |