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(* Title: Cube/cube.thy


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ID: $Id$


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Author: Tobias Nipkow


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Copyright 1993 University of Cambridge


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Barendregt's LambdaCube


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*)


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Cube = Pure +


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types

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term context typing

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arities


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term :: logic


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consts


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Abs, Prod :: "[term, term => term] => term"


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Trueprop :: "[context, typing] => prop" ("(_/  _)")


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Trueprop1 :: "typing => prop" ("(_)")


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MT_context :: "context" ("")


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"" :: "id => context" ("_ ")


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"" :: "var => context" ("_ ")


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Context :: "[typing, context] => context" ("_ _")


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star :: "term" ("*")


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box :: "term" ("[]")


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"^" :: "[term, term] => term" (infixl 20)

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Lam :: "[idt, term, term] => term" ("(3Lam _:_./ _)" [0, 0, 0] 10)


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Pi :: "[idt, term, term] => term" ("(3Pi _:_./ _)" [0, 0] 10)

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">" :: "[term, term] => term" (infixr 10)


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Has_type :: "[term, term] => typing" ("(_:/ _)" [0, 0] 5)


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translations


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(prop) "x:X" == (prop) " x:X"


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"Lam x:A. B" == "Abs(A, %x. B)"


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"Pi x:A. B" => "Prod(A, %x. B)"

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"A > B" => "Prod(A, _K(B))"

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rules


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s_b "*: []"


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strip_s "[ A:*; a:A ==> G  x:X ] ==> a:A G  x:X"


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strip_b "[ A:[]; a:A ==> G  x:X ] ==> a:A G  x:X"


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app "[ F:Prod(A, B); C:A ] ==> F^C: B(C)"


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pi_ss "[ A:*; !!x. x:A ==> B(x):* ] ==> Prod(A, B):*"


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lam_ss "[ A:*; !!x. x:A ==> f(x):B(x); !!x. x:A ==> B(x):* ] \


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\ ==> Abs(A, f) : Prod(A, B)"


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beta "Abs(A, f)^a == f(a)"


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end


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ML


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val print_translation = [("Prod", dependent_tr' ("Pi", "op >"))];


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