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(* Title: CCL/terms.thy
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ID: $Id$
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Author: Martin Coen
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Copyright 1993 University of Cambridge
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Definitions of usual program constructs in CCL.
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*)
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Term = CCL +
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consts
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one :: "i"
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if :: "[i,i,i]=>i" ("(3if _/ then _/ else _)" [] 60)
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inl,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,snd,
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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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"." :: "[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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"@let" :: "[id,i,i]=>i" ("(3let _ be _/ in _)" [] 60)
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"@letrec" :: "[id,id,i,i]=>i" ("(3letrec _ _ be _/ in _)" [] 60)
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"@letrec2" :: "[id,id,id,i,i]=>i" ("(3letrec _ _ _ be _/ in _)" [] 60)
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"@letrec3" :: "[id,id,id,id,i,i]=>i" ("(3letrec _ _ _ _ be _/ in _)" [] 60)
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napply :: "[i=>i,i,i]=>i" ("(_ ^ _ ` _)")
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rules
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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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end
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ML
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(** Quantifier translations: variable binding **)
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fun let_tr [Free(id,T),a,b] = Const("let",dummyT) $ a $ absfree(id,T,b);
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fun let_tr' [a,Abs(id,T,b)] =
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let val (id',b') = variant_abs(id,T,b)
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in Const("@let",dummyT) $ Free(id',T) $ a $ b' end;
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fun letrec_tr [Free(f,S),Free(x,T),a,b] =
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Const("letrec",dummyT) $ absfree(x,T,absfree(f,S,a)) $ absfree(f,S,b);
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fun letrec2_tr [Free(f,S),Free(x,T),Free(y,U),a,b] =
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Const("letrec2",dummyT) $ absfree(x,T,absfree(y,U,absfree(f,S,a))) $ absfree(f,S,b);
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fun letrec3_tr [Free(f,S),Free(x,T),Free(y,U),Free(z,V),a,b] =
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Const("letrec3",dummyT) $ absfree(x,T,absfree(y,U,absfree(z,U,absfree(f,S,a)))) $ absfree(f,S,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') = variant_abs(ff,SS,b)
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val (_,a'') = variant_abs(f,S,a)
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val (x',a') = variant_abs(x,T,a'')
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in 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') = variant_abs(ff,SS,b)
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val ( _,a1) = variant_abs(f,S,a)
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val (y',a2) = variant_abs(y,U,a1)
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val (x',a') = variant_abs(x,T,a2)
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in 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') = variant_abs(ff,SS,b)
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val ( _,a1) = variant_abs(f,S,a)
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val (z',a2) = variant_abs(z,V,a1)
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val (y',a3) = variant_abs(y,U,a2)
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val (x',a') = variant_abs(x,T,a3)
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in 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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val parse_translation=
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[("@let", let_tr),
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("@letrec", letrec_tr),
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("@letrec2", letrec2_tr),
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("@letrec3", letrec3_tr)
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];
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val print_translation=
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[("let", let_tr'),
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("letrec", letrec_tr'),
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("letrec2", letrec2_tr'),
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("letrec3", letrec3_tr')
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];
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