author  wenzelm 
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changeset 55965  0c2c61a87a7d 
parent 52143  36ffe23b25f8 
child 56199  8e8d28ed7529 
permissions  rwrr 
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(* Title: CCL/Term.thy 
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Author: Martin Coen 
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Copyright 1993 University of Cambridge 
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*) 

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header {* Definitions of usual program constructs in CCL *} 
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theory Term 

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imports CCL 

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begin 

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consts 

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one :: "i" 
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"if" :: "[i,i,i]=>i" ("(3if _/ then _/ else _)" [0,0,60] 60) 
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inl :: "i=>i" 
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inr :: "i=>i" 

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when :: "[i,i=>i,i=>i]=>i" 

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split :: "[i,[i,i]=>i]=>i" 
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fst :: "i=>i" 
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snd :: "i=>i" 

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thd :: "i=>i" 
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zero :: "i" 
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succ :: "i=>i" 
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ncase :: "[i,i,i=>i]=>i" 
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nrec :: "[i,i,[i,i]=>i]=>i" 
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nil :: "i" ("([])") 
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cons :: "[i,i]=>i" (infixr "$" 80) 
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lcase :: "[i,i,[i,i]=>i]=>i" 
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lrec :: "[i,i,[i,i,i]=>i]=>i" 
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"let" :: "[i,i=>i]=>i" 
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letrec :: "[[i,i=>i]=>i,(i=>i)=>i]=>i" 
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letrec2 :: "[[i,i,i=>i=>i]=>i,(i=>i=>i)=>i]=>i" 
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letrec3 :: "[[i,i,i,i=>i=>i=>i]=>i,(i=>i=>i=>i)=>i]=>i" 
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syntax 
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"_let" :: "[id,i,i]=>i" ("(3let _ be _/ in _)" 
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[0,0,60] 60) 
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"_letrec" :: "[id,id,i,i]=>i" ("(3letrec _ _ be _/ in _)" 
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[0,0,0,60] 60) 
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"_letrec2" :: "[id,id,id,i,i]=>i" ("(3letrec _ _ _ be _/ in _)" 
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[0,0,0,0,60] 60) 
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"_letrec3" :: "[id,id,id,id,i,i]=>i" ("(3letrec _ _ _ _ be _/ in _)" 
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[0,0,0,0,0,60] 60) 
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ML {* 
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(** Quantifier translations: variable binding **) 
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(* FIXME does not handle "_idtdummy" *) 
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(* FIXME should use Syntax_Trans.mark_bound, Syntax_Trans.variant_abs' *) 
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fun let_tr [Free x, a, b] = Const(@{const_syntax let},dummyT) $ a $ absfree x b; 
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fun let_tr' [a,Abs(id,T,b)] = 
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let val (id',b') = Syntax_Trans.variant_abs(id,T,b) 
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in Const(@{syntax_const "_let"},dummyT) $ Free(id',T) $ a $ b' end; 
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fun letrec_tr [Free f, Free x, a, b] = 
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Const(@{const_syntax letrec}, dummyT) $ absfree x (absfree f a) $ absfree f b; 

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fun letrec2_tr [Free f, Free x, Free y, a, b] = 

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Const(@{const_syntax letrec2}, dummyT) $ absfree x (absfree y (absfree f a)) $ absfree f b; 

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fun letrec3_tr [Free f, Free x, Free y, Free z, a, b] = 

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Const(@{const_syntax letrec3}, dummyT) $ 

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absfree x (absfree y (absfree z (absfree f a))) $ absfree f b; 

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fun letrec_tr' [Abs(x,T,Abs(f,S,a)),Abs(ff,SS,b)] = 

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let val (f',b') = Syntax_Trans.variant_abs(ff,SS,b) 
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val (_,a'') = Syntax_Trans.variant_abs(f,S,a) 

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val (x',a') = Syntax_Trans.variant_abs(x,T,a'') 

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in Const(@{syntax_const "_letrec"},dummyT) $ Free(f',SS) $ Free(x',T) $ a' $ b' end; 
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fun letrec2_tr' [Abs(x,T,Abs(y,U,Abs(f,S,a))),Abs(ff,SS,b)] = 
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let val (f',b') = Syntax_Trans.variant_abs(ff,SS,b) 
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val ( _,a1) = Syntax_Trans.variant_abs(f,S,a) 

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val (y',a2) = Syntax_Trans.variant_abs(y,U,a1) 

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val (x',a') = Syntax_Trans.variant_abs(x,T,a2) 

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in Const(@{syntax_const "_letrec2"},dummyT) $ Free(f',SS) $ Free(x',T) $ Free(y',U) $ a' $ b' 
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end; 
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fun letrec3_tr' [Abs(x,T,Abs(y,U,Abs(z,V,Abs(f,S,a)))),Abs(ff,SS,b)] = 

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let val (f',b') = Syntax_Trans.variant_abs(ff,SS,b) 
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val ( _,a1) = Syntax_Trans.variant_abs(f,S,a) 

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val (z',a2) = Syntax_Trans.variant_abs(z,V,a1) 

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val (y',a3) = Syntax_Trans.variant_abs(y,U,a2) 

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val (x',a') = Syntax_Trans.variant_abs(x,T,a3) 

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in Const(@{syntax_const "_letrec3"},dummyT) $ Free(f',SS) $ Free(x',T) $ Free(y',U) $ Free(z',V) $ a' $ b' 
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end; 
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*} 
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parse_translation {* 

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[(@{syntax_const "_let"}, K let_tr), 
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(@{syntax_const "_letrec"}, K letrec_tr), 

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(@{syntax_const "_letrec2"}, K letrec2_tr), 

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(@{syntax_const "_letrec3"}, K letrec3_tr)] 

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*} 
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print_translation {* 

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[(@{const_syntax let}, K let_tr'), 
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(@{const_syntax letrec}, K letrec_tr'), 

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(@{const_syntax letrec2}, K letrec2_tr'), 

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(@{const_syntax letrec3}, K letrec3_tr')] 

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*} 
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consts 

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napply :: "[i=>i,i,i]=>i" ("(_ ^ _ ` _)" [56,56,56] 56) 

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defs 
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one_def: "one == true" 
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if_def: "if b then t else u == case(b,t,u,% x y. bot,%v. bot)" 

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inl_def: "inl(a) == <true,a>" 

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inr_def: "inr(b) == <false,b>" 

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when_def: "when(t,f,g) == split(t,%b x. if b then f(x) else g(x))" 

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split_def: "split(t,f) == case(t,bot,bot,f,%u. bot)" 

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fst_def: "fst(t) == split(t,%x y. x)" 

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snd_def: "snd(t) == split(t,%x y. y)" 

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thd_def: "thd(t) == split(t,%x p. split(p,%y z. z))" 

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zero_def: "zero == inl(one)" 

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succ_def: "succ(n) == inr(n)" 

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ncase_def: "ncase(n,b,c) == when(n,%x. b,%y. c(y))" 

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nrec_def: " nrec(n,b,c) == letrec g x be ncase(x,b,%y. c(y,g(y))) in g(n)" 

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nil_def: "[] == inl(one)" 

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cons_def: "h$t == inr(<h,t>)" 

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lcase_def: "lcase(l,b,c) == when(l,%x. b,%y. split(y,c))" 

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lrec_def: "lrec(l,b,c) == letrec g x be lcase(x,b,%h t. c(h,t,g(t))) in g(l)" 

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let_def: "let x be t in f(x) == case(t,f(true),f(false),%x y. f(<x,y>),%u. f(lam x. u(x)))" 

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letrec_def: 

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"letrec g x be h(x,g) in b(g) == b(%x. fix(%f. lam x. h(x,%y. f`y))`x)" 

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letrec2_def: "letrec g x y be h(x,y,g) in f(g)== 

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letrec g' p be split(p,%x y. h(x,y,%u v. g'(<u,v>))) 

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in f(%x y. g'(<x,y>))" 

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letrec3_def: "letrec g x y z be h(x,y,z,g) in f(g) == 

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letrec g' p be split(p,%x xs. split(xs,%y z. h(x,y,z,%u v w. g'(<u,<v,w>>)))) 

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in f(%x y z. g'(<x,<y,z>>))" 

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napply_def: "f ^n` a == nrec(n,a,%x g. f(g))" 

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lemmas simp_can_defs = one_def inl_def inr_def 

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and simp_ncan_defs = if_def when_def split_def fst_def snd_def thd_def 

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lemmas simp_defs = simp_can_defs simp_ncan_defs 

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lemmas ind_can_defs = zero_def succ_def nil_def cons_def 

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and ind_ncan_defs = ncase_def nrec_def lcase_def lrec_def 

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lemmas ind_defs = ind_can_defs ind_ncan_defs 

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lemmas data_defs = simp_defs ind_defs napply_def 

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and genrec_defs = letrec_def letrec2_def letrec3_def 

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subsection {* Beta Rules, including strictness *} 

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lemma letB: "~ t=bot ==> let x be t in f(x) = f(t)" 

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apply (unfold let_def) 

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apply (erule rev_mp) 

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apply (rule_tac t = "t" in term_case) 

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apply (simp_all add: caseBtrue caseBfalse caseBpair caseBlam) 

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done 

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lemma letBabot: "let x be bot in f(x) = bot" 

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apply (unfold let_def) 

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apply (rule caseBbot) 

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done 

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lemma letBbbot: "let x be t in bot = bot" 

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apply (unfold let_def) 

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apply (rule_tac t = t in term_case) 

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apply (rule caseBbot) 

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apply (simp_all add: caseBtrue caseBfalse caseBpair caseBlam) 

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done 

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lemma applyB: "(lam x. b(x)) ` a = b(a)" 

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apply (unfold apply_def) 

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apply (simp add: caseBtrue caseBfalse caseBpair caseBlam) 

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done 

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lemma applyBbot: "bot ` a = bot" 

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apply (unfold apply_def) 

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apply (rule caseBbot) 

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done 

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lemma fixB: "fix(f) = f(fix(f))" 

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apply (unfold fix_def) 

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apply (rule applyB [THEN ssubst], rule refl) 

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done 

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lemma letrecB: 

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"letrec g x be h(x,g) in g(a) = h(a,%y. letrec g x be h(x,g) in g(y))" 

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apply (unfold letrec_def) 

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apply (rule fixB [THEN ssubst], rule applyB [THEN ssubst], rule refl) 

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done 

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lemmas rawBs = caseBs applyB applyBbot 

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method_setup beta_rl = {* 
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Scan.succeed (fn ctxt => 
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SIMPLE_METHOD' (CHANGED o 
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simp_tac (ctxt addsimps @{thms rawBs} setloop (fn _ => stac @{thm letrecB})))) 
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*} 
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lemma ifBtrue: "if true then t else u = t" 
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and ifBfalse: "if false then t else u = u" 
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and ifBbot: "if bot then t else u = bot" 
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lemma whenBinl: "when(inl(a),t,u) = t(a)" 
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and whenBinr: "when(inr(a),t,u) = u(a)" 
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and whenBbot: "when(bot,t,u) = bot" 
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lemma splitB: "split(<a,b>,h) = h(a,b)" 
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and splitBbot: "split(bot,h) = bot" 
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lemma fstB: "fst(<a,b>) = a" 
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and fstBbot: "fst(bot) = bot" 
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lemma sndB: "snd(<a,b>) = b" 
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and sndBbot: "snd(bot) = bot" 
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lemma thdB: "thd(<a,<b,c>>) = c" 
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and thdBbot: "thd(bot) = bot" 
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lemma ncaseBzero: "ncase(zero,t,u) = t" 
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and ncaseBsucc: "ncase(succ(n),t,u) = u(n)" 
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and ncaseBbot: "ncase(bot,t,u) = bot" 
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lemma nrecBzero: "nrec(zero,t,u) = t" 
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and nrecBsucc: "nrec(succ(n),t,u) = u(n,nrec(n,t,u))" 
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and nrecBbot: "nrec(bot,t,u) = bot" 
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lemma lcaseBnil: "lcase([],t,u) = t" 
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and lcaseBcons: "lcase(x$xs,t,u) = u(x,xs)" 
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and lcaseBbot: "lcase(bot,t,u) = bot" 
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lemma lrecBnil: "lrec([],t,u) = t" 
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and lrecBcons: "lrec(x$xs,t,u) = u(x,xs,lrec(xs,t,u))" 
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and lrecBbot: "lrec(bot,t,u) = bot" 
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lemma letrec2B: 
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"letrec g x y be h(x,y,g) in g(p,q) = h(p,q,%u v. letrec g x y be h(x,y,g) in g(u,v))" 
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unfolding data_defs letrec2_def by beta_rl+ 
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lemma letrec3B: 
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"letrec g x y z be h(x,y,z,g) in g(p,q,r) = 
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h(p,q,r,%u v w. letrec g x y z be h(x,y,z,g) in g(u,v,w))" 
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unfolding data_defs letrec3_def by beta_rl+ 
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lemma napplyBzero: "f^zero`a = a" 
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and napplyBsucc: "f^succ(n)`a = f(f^n`a)" 
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unfolding data_defs by beta_rl+ 
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lemmas termBs = letB applyB applyBbot splitB splitBbot fstB fstBbot 
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sndB sndBbot thdB thdBbot ifBtrue ifBfalse ifBbot whenBinl whenBinr 
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whenBbot ncaseBzero ncaseBsucc ncaseBbot nrecBzero nrecBsucc 
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nrecBbot lcaseBnil lcaseBcons lcaseBbot lrecBnil lrecBcons lrecBbot 
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napplyBzero napplyBsucc 
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subsection {* Constructors are injective *} 

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lemma term_injs: 
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"(inl(a) = inl(a')) <> (a=a')" 

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"(inr(a) = inr(a')) <> (a=a')" 

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"(succ(a) = succ(a')) <> (a=a')" 

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"(a$b = a'$b') <> (a=a' & b=b')" 

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by (inj_rl applyB splitB whenBinl whenBinr ncaseBsucc lcaseBcons) 

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subsection {* Constructors are distinct *} 

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ML {* 
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bind_thms ("term_dstncts", 
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mkall_dstnct_thms @{context} @{thms data_defs} (@{thms ccl_injs} @ @{thms term_injs}) 
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[["bot","inl","inr"], ["bot","zero","succ"], ["bot","nil","cons"]]); 
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*} 
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subsection {* Rules for preorder @{text "[="} *} 

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lemma term_porews: 
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"inl(a) [= inl(a') <> a [= a'" 

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"inr(b) [= inr(b') <> b [= b'" 

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"succ(n) [= succ(n') <> n [= n'" 

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"x$xs [= x'$xs' <> x [= x' & xs [= xs'" 

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by (simp_all add: data_defs ccl_porews) 

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subsection {* Rewriting and Proving *} 

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ML {* 
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bind_thms ("term_injDs", XH_to_Ds @{thms term_injs}); 
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*} 
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lemmas term_rews = termBs term_injs term_dstncts ccl_porews term_porews 
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lemmas [simp] = term_rews 
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lemmas [elim!] = term_dstncts [THEN notE] 
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lemmas [dest!] = term_injDs 

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end 