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permissions  rwrr 
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(* Title: FOL/IFOL.thy 
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ID: $Id$ 
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Author: Lawrence C Paulson and Markus Wenzel 
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*) 

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header {* Intuitionistic firstorder logic *} 
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theory IFOL 
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imports Pure 

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uses ("IFOL_lemmas.ML") ("fologic.ML") ("hypsubstdata.ML") ("intprover.ML") 
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begin 
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subsection {* Syntax and axiomatic basis *} 
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global 
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classes "term" 
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finalconsts term_class 
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defaultsort "term" 
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typedecl o 
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judgment 
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Trueprop :: "o => prop" ("(_)" 5) 

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consts 
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True :: o 
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False :: o 
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(* Connectives *) 

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"op =" :: "['a, 'a] => o" (infixl "=" 50) 
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Not :: "o => o" ("~ _" [40] 40) 
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"op &" :: "[o, o] => o" (infixr "&" 35) 
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"op " :: "[o, o] => o" (infixr "" 30) 

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"op >" :: "[o, o] => o" (infixr ">" 25) 

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"op <>" :: "[o, o] => o" (infixr "<>" 25) 

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(* Quantifiers *) 

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All :: "('a => o) => o" (binder "ALL " 10) 
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Ex :: "('a => o) => o" (binder "EX " 10) 
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Ex1 :: "('a => o) => o" (binder "EX! " 10) 
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abbreviation 
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not_equal :: "['a, 'a] => o" (infixl "~=" 50) 
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"x ~= y == ~ (x = y)" 
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abbreviation (xsymbols) 
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not_equal :: "['a, 'a] => o" (infixl "\<noteq>" 50) 

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"x \<noteq> y == ~ (x = y)" 

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abbreviation (HTML output) 

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not_equal :: "['a, 'a] => o" (infixl "\<noteq>" 50) 

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"not_equal == xsymbols.not_equal" 

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syntax (xsymbols) 
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Not :: "o => o" ("\<not> _" [40] 40) 
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"op &" :: "[o, o] => o" (infixr "\<and>" 35) 

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"op " :: "[o, o] => o" (infixr "\<or>" 30) 

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"ALL " :: "[idts, o] => o" ("(3\<forall>_./ _)" [0, 10] 10) 

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"EX " :: "[idts, o] => o" ("(3\<exists>_./ _)" [0, 10] 10) 

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"EX! " :: "[idts, o] => o" ("(3\<exists>!_./ _)" [0, 10] 10) 

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"op >" :: "[o, o] => o" (infixr "\<longrightarrow>" 25) 

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"op <>" :: "[o, o] => o" (infixr "\<longleftrightarrow>" 25) 

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syntax (HTML output) 
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Not :: "o => o" ("\<not> _" [40] 40) 
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"op &" :: "[o, o] => o" (infixr "\<and>" 35) 
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"op " :: "[o, o] => o" (infixr "\<or>" 30) 

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"ALL " :: "[idts, o] => o" ("(3\<forall>_./ _)" [0, 10] 10) 

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"EX " :: "[idts, o] => o" ("(3\<exists>_./ _)" [0, 10] 10) 

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"EX! " :: "[idts, o] => o" ("(3\<exists>!_./ _)" [0, 10] 10) 

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local 
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finalconsts 
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False All Ex 

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"op =" 

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"op &" 

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"op " 

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"op >" 

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axioms 
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(* Equality *) 
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refl: "a=a" 
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(* Propositional logic *) 
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conjI: "[ P; Q ] ==> P&Q" 
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conjunct1: "P&Q ==> P" 
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conjunct2: "P&Q ==> Q" 
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disjI1: "P ==> PQ" 
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disjI2: "Q ==> PQ" 
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disjE: "[ PQ; P ==> R; Q ==> R ] ==> R" 
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impI: "(P ==> Q) ==> P>Q" 
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mp: "[ P>Q; P ] ==> Q" 
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FalseE: "False ==> P" 
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(* Quantifiers *) 
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allI: "(!!x. P(x)) ==> (ALL x. P(x))" 
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spec: "(ALL x. P(x)) ==> P(x)" 
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exI: "P(x) ==> (EX x. P(x))" 
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exE: "[ EX x. P(x); !!x. P(x) ==> R ] ==> R" 
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(* Reflection *) 

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eq_reflection: "(x=y) ==> (x==y)" 
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iff_reflection: "(P<>Q) ==> (P==Q)" 
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text{*Thanks to Stephan Merz*} 
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theorem subst: 

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assumes eq: "a = b" and p: "P(a)" 

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shows "P(b)" 

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proof  

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from eq have meta: "a \<equiv> b" 

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by (rule eq_reflection) 

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from p show ?thesis 

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by (unfold meta) 

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qed 

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defs 
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(* Definitions *) 

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True_def: "True == False>False" 

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not_def: "~P == P>False" 

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iff_def: "P<>Q == (P>Q) & (Q>P)" 

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(* Unique existence *) 

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ex1_def: "Ex1(P) == EX x. P(x) & (ALL y. P(y) > y=x)" 

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subsection {* Lemmas and proof tools *} 
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use "IFOL_lemmas.ML" 
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ML {* 
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structure ProjectRule = ProjectRuleFun 

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(struct 

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val conjunct1 = thm "conjunct1"; 

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val conjunct2 = thm "conjunct2"; 

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val mp = thm "mp"; 

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end) 

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*} 

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use "fologic.ML" 
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use "hypsubstdata.ML" 
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setup hypsubst_setup 

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use "intprover.ML" 
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subsection {* Intuitionistic Reasoning *} 
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lemma impE': 
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assumes 1: "P > Q" 
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and 2: "Q ==> R" 
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and 3: "P > Q ==> P" 
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shows R 
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proof  
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from 3 and 1 have P . 

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with 1 have Q by (rule impE) 
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with 2 show R . 
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qed 

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lemma allE': 

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assumes 1: "ALL x. P(x)" 
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and 2: "P(x) ==> ALL x. P(x) ==> Q" 
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shows Q 
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proof  
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from 1 have "P(x)" by (rule spec) 

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from this and 1 show Q by (rule 2) 

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qed 

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lemma notE': 
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assumes 1: "~ P" 
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and 2: "~ P ==> P" 
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shows R 
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proof  
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from 2 and 1 have P . 

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with 1 show R by (rule notE) 

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qed 

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lemmas [Pure.elim!] = disjE iffE FalseE conjE exE 

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and [Pure.intro!] = iffI conjI impI TrueI notI allI refl 

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and [Pure.elim 2] = allE notE' impE' 

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and [Pure.intro] = exI disjI2 disjI1 

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setup {* ContextRules.addSWrapper (fn tac => hyp_subst_tac ORELSE' tac) *} 
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lemma iff_not_sym: "~ (Q <> P) ==> ~ (P <> Q)" 
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by iprover 
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lemmas [sym] = sym iff_sym not_sym iff_not_sym 

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and [Pure.elim?] = iffD1 iffD2 impE 

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lemma eq_commute: "a=b <> b=a" 
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apply (rule iffI) 

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apply (erule sym)+ 

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done 

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subsection {* Atomizing metalevel rules *} 
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lemma atomize_all [atomize]: "(!!x. P(x)) == Trueprop (ALL x. P(x))" 
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proof 
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assume "!!x. P(x)" 
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show "ALL x. P(x)" .. 
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next 
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assume "ALL x. P(x)" 

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thus "!!x. P(x)" .. 
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qed 
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lemma atomize_imp [atomize]: "(A ==> B) == Trueprop (A > B)" 
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proof 
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assume "A ==> B" 
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thus "A > B" .. 

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next 
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assume "A > B" and A 

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thus B by (rule mp) 

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qed 

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lemma atomize_eq [atomize]: "(x == y) == Trueprop (x = y)" 
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proof 
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assume "x == y" 
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show "x = y" by (unfold prems) (rule refl) 

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next 

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assume "x = y" 

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thus "x == y" by (rule eq_reflection) 

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qed 

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lemma atomize_iff [atomize]: "(A == B) == Trueprop (A <> B)" 
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proof 

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assume "A == B" 

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show "A <> B" by (unfold prems) (rule iff_refl) 

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next 

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assume "A <> B" 

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thus "A == B" by (rule iff_reflection) 

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qed 

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lemma atomize_conj [atomize]: 
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includes meta_conjunction_syntax 
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shows "(A && B) == Trueprop (A & B)" 
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proof 
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assume conj: "A && B" 
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show "A & B" 
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proof (rule conjI) 
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from conj show A by (rule conjunctionD1) 
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from conj show B by (rule conjunctionD2) 
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qed 
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next 
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assume conj: "A & B" 
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show "A && B" 
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proof  
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from conj show A .. 
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from conj show B .. 
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qed 
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qed 

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lemmas [symmetric, rulify] = atomize_all atomize_imp 
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and [symmetric, defn] = atomize_all atomize_imp atomize_eq atomize_iff 
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subsection {* Calculational rules *} 

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lemma forw_subst: "a = b ==> P(b) ==> P(a)" 

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by (rule ssubst) 

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lemma back_subst: "P(a) ==> a = b ==> P(b)" 

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by (rule subst) 

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text {* 

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Note that this list of rules is in reverse order of priorities. 

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*} 

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lemmas basic_trans_rules [trans] = 
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forw_subst 
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back_subst 

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rev_mp 

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mp 

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trans 

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subsection {* ``Let'' declarations *} 
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nonterminals letbinds letbind 

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constdefs 

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Let :: "['a::{}, 'a => 'b] => ('b::{})" 
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"Let(s, f) == f(s)" 
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syntax 

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"_bind" :: "[pttrn, 'a] => letbind" ("(2_ =/ _)" 10) 

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"" :: "letbind => letbinds" ("_") 

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"_binds" :: "[letbind, letbinds] => letbinds" ("_;/ _") 

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"_Let" :: "[letbinds, 'a] => 'a" ("(let (_)/ in (_))" 10) 

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translations 

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"_Let(_binds(b, bs), e)" == "_Let(b, _Let(bs, e))" 

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"let x = a in e" == "Let(a, %x. e)" 

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lemma LetI: 

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assumes prem: "(!!x. x=t ==> P(u(x)))" 

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shows "P(let x=t in u(x))" 

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apply (unfold Let_def) 

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apply (rule refl [THEN prem]) 

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done 

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ML 

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{* 

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val Let_def = thm "Let_def"; 

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val LetI = thm "LetI"; 

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*} 

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end 