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(* Title: ZF/qpair.thy


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ID: $Id$


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Author: Lawrence C Paulson, Cambridge University Computer Laboratory


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Copyright 1993 University of Cambridge


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Quineinspired ordered pairs and disjoint sums, for nonwellfounded data


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structures in ZF. Does not precisely follow Quine's construction. Thanks


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to Thomas Forster for suggesting this approach!


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W. V. Quine, On Ordered Pairs and Relations, in Selected Logic Papers,


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1966.


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*)


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QPair = Sum +


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consts


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QPair :: "[i, i] => i" ("<(_;/ _)>")


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


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qfsplit :: "[[i,i] => o, i] => o"


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qconverse :: "i => i"


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"@QSUM" :: "[idt, i, i] => i" ("(3QSUM _:_./ _)" 10)


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" <*>" :: "[i, i] => i" ("(_ <*>/ _)" [81, 80] 80)


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


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"<+>" :: "[i,i]=>i" (infixr 65)


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QInl,QInr :: "i=>i"


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


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translations


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"QSUM x:A. B" => "QSigma(A, %x. B)"

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"A <*> B" => "QSigma(A, _K(B))"

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rules


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QPair_def "<a;b> == a+b"


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qsplit_def "qsplit(c,p) == THE y. EX a b. p=<a;b> & y=c(a,b)"


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qfsplit_def "qfsplit(R,z) == EX x y. z=<x;y> & R(x,y)"


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qconverse_def "qconverse(r) == {z. w:r, EX x y. w=<x;y> & z=<y;x>}"


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QSigma_def "QSigma(A,B) == UN x:A. UN y:B(x). {<x;y>}"


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qsum_def "A <+> B == QSigma({0}, %x.A) Un QSigma({1}, %x.B)"


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QInl_def "QInl(a) == <0;a>"


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QInr_def "QInr(b) == <1;b>"


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qcase_def "qcase(c,d) == qsplit(%y z. cond(y, d(z), c(z)))"


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end


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ML


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val print_translation =


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[("QSigma", dependent_tr' ("@QSUM", " <*>"))];
