src/ZF/QPair.thy
author wenzelm
Sat Mar 13 16:44:12 2010 +0100 (2010-03-13)
changeset 35762 af3ff2ba4c54
parent 24893 b8ef7afe3a6b
child 45602 2a858377c3d2
permissions -rw-r--r--
removed old CVS Ids;
tuned headers;
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(*  Title:      ZF/QPair.thy
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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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Many proofs are borrowed from pair.thy and sum.thy
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Do we EVER have rank(a) < rank(<a;b>) ?  Perhaps if the latter rank
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is not a limit ordinal? 
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*)
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header{*Quine-Inspired Ordered Pairs and Disjoint Sums*}
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theory QPair imports Sum func begin
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text{*For non-well-founded 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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definition
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  QPair     :: "[i, i] => i"                      ("<(_;/ _)>")  where
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    "<a;b> == a+b"
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definition
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  qfst :: "i => i"  where
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    "qfst(p) == THE a. EX b. p=<a;b>"
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definition
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  qsnd :: "i => i"  where
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    "qsnd(p) == THE b. EX a. p=<a;b>"
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definition
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  qsplit    :: "[[i, i] => 'a, i] => 'a::{}"  (*for pattern-matching*)  where
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    "qsplit(c,p) == c(qfst(p), qsnd(p))"
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definition
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  qconverse :: "i => i"  where
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    "qconverse(r) == {z. w:r, EX x y. w=<x;y> & z=<y;x>}"
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definition
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  QSigma    :: "[i, i => i] => i"  where
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    "QSigma(A,B)  ==  \<Union>x\<in>A. \<Union>y\<in>B(x). {<x;y>}"
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syntax
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  "_QSUM"   :: "[idt, i, i] => i"               ("(3QSUM _:_./ _)" 10)
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translations
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  "QSUM x:A. B"  => "CONST QSigma(A, %x. B)"
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abbreviation
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  qprod  (infixr "<*>" 80) where
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  "A <*> B == QSigma(A, %_. B)"
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definition
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  qsum    :: "[i,i]=>i"                         (infixr "<+>" 65)  where
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    "A <+> B      == ({0} <*> A) Un ({1} <*> B)"
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definition
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  QInl :: "i=>i"  where
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    "QInl(a)      == <0;a>"
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definition
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  QInr :: "i=>i"  where
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    "QInr(b)      == <1;b>"
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definition
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  qcase     :: "[i=>i, i=>i, i]=>i"  where
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    "qcase(c,d)   == qsplit(%y z. cond(y, d(z), c(z)))"
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subsection{*Quine ordered pairing*}
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(** Lemmas for showing that <a;b> uniquely determines a and b **)
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lemma QPair_empty [simp]: "<0;0> = 0"
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by (simp add: QPair_def)
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lemma QPair_iff [simp]: "<a;b> = <c;d> <-> a=c & b=d"
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apply (simp add: QPair_def)
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apply (rule sum_equal_iff)
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done
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lemmas QPair_inject = QPair_iff [THEN iffD1, THEN conjE, standard, elim!]
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lemma QPair_inject1: "<a;b> = <c;d> ==> a=c"
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by blast
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lemma QPair_inject2: "<a;b> = <c;d> ==> b=d"
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by blast
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subsubsection{*QSigma: Disjoint union of a family of sets
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     Generalizes Cartesian product*}
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lemma QSigmaI [intro!]: "[| a:A;  b:B(a) |] ==> <a;b> : QSigma(A,B)"
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by (simp add: QSigma_def)
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(** Elimination rules for <a;b>:A*B -- introducing no eigenvariables **)
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lemma QSigmaE [elim!]:
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    "[| c: QSigma(A,B);   
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        !!x y.[| x:A;  y:B(x);  c=<x;y> |] ==> P  
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     |] ==> P"
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by (simp add: QSigma_def, blast) 
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lemma QSigmaE2 [elim!]:
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    "[| <a;b>: QSigma(A,B); [| a:A;  b:B(a) |] ==> P |] ==> P"
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by (simp add: QSigma_def) 
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lemma QSigmaD1: "<a;b> : QSigma(A,B) ==> a : A"
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by blast
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lemma QSigmaD2: "<a;b> : QSigma(A,B) ==> b : B(a)"
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by blast
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lemma QSigma_cong:
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    "[| A=A';  !!x. x:A' ==> B(x)=B'(x) |] ==>  
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     QSigma(A,B) = QSigma(A',B')"
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by (simp add: QSigma_def) 
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lemma QSigma_empty1 [simp]: "QSigma(0,B) = 0"
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by blast
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lemma QSigma_empty2 [simp]: "A <*> 0 = 0"
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by blast
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subsubsection{*Projections: qfst, qsnd*}
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lemma qfst_conv [simp]: "qfst(<a;b>) = a"
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by (simp add: qfst_def)
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lemma qsnd_conv [simp]: "qsnd(<a;b>) = b"
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by (simp add: qsnd_def)
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lemma qfst_type [TC]: "p:QSigma(A,B) ==> qfst(p) : A"
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by auto
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lemma qsnd_type [TC]: "p:QSigma(A,B) ==> qsnd(p) : B(qfst(p))"
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by auto
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lemma QPair_qfst_qsnd_eq: "a: QSigma(A,B) ==> <qfst(a); qsnd(a)> = a"
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by auto
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subsubsection{*Eliminator: qsplit*}
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(*A META-equality, so that it applies to higher types as well...*)
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lemma qsplit [simp]: "qsplit(%x y. c(x,y), <a;b>) == c(a,b)"
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by (simp add: qsplit_def)
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lemma qsplit_type [elim!]:
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    "[|  p:QSigma(A,B);    
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         !!x y.[| x:A; y:B(x) |] ==> c(x,y):C(<x;y>)  
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     |] ==> qsplit(%x y. c(x,y), p) : C(p)"
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by auto 
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lemma expand_qsplit: 
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 "u: A<*>B ==> R(qsplit(c,u)) <-> (ALL x:A. ALL y:B. u = <x;y> --> R(c(x,y)))"
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apply (simp add: qsplit_def, auto)
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done
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subsubsection{*qsplit for predicates: result type o*}
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lemma qsplitI: "R(a,b) ==> qsplit(R, <a;b>)"
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by (simp add: qsplit_def)
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lemma qsplitE:
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    "[| qsplit(R,z);  z:QSigma(A,B);                     
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        !!x y. [| z = <x;y>;  R(x,y) |] ==> P            
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    |] ==> P"
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by (simp add: qsplit_def, auto) 
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lemma qsplitD: "qsplit(R,<a;b>) ==> R(a,b)"
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by (simp add: qsplit_def)
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subsubsection{*qconverse*}
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lemma qconverseI [intro!]: "<a;b>:r ==> <b;a>:qconverse(r)"
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by (simp add: qconverse_def, blast)
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lemma qconverseD [elim!]: "<a;b> : qconverse(r) ==> <b;a> : r"
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by (simp add: qconverse_def, blast)
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lemma qconverseE [elim!]:
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    "[| yx : qconverse(r);   
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        !!x y. [| yx=<y;x>;  <x;y>:r |] ==> P  
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     |] ==> P"
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by (simp add: qconverse_def, blast) 
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lemma qconverse_qconverse: "r<=QSigma(A,B) ==> qconverse(qconverse(r)) = r"
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by blast
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lemma qconverse_type: "r <= A <*> B ==> qconverse(r) <= B <*> A"
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by blast
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lemma qconverse_prod: "qconverse(A <*> B) = B <*> A"
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by blast
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lemma qconverse_empty: "qconverse(0) = 0"
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by blast
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subsection{*The Quine-inspired notion of disjoint sum*}
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lemmas qsum_defs = qsum_def QInl_def QInr_def qcase_def
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(** Introduction rules for the injections **)
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lemma QInlI [intro!]: "a : A ==> QInl(a) : A <+> B"
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by (simp add: qsum_defs, blast)
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lemma QInrI [intro!]: "b : B ==> QInr(b) : A <+> B"
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by (simp add: qsum_defs, blast)
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(** Elimination rules **)
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lemma qsumE [elim!]:
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    "[| u: A <+> B;   
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        !!x. [| x:A;  u=QInl(x) |] ==> P;  
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        !!y. [| y:B;  u=QInr(y) |] ==> P  
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     |] ==> P"
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by (simp add: qsum_defs, blast) 
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(** Injection and freeness equivalences, for rewriting **)
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lemma QInl_iff [iff]: "QInl(a)=QInl(b) <-> a=b"
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by (simp add: qsum_defs )
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lemma QInr_iff [iff]: "QInr(a)=QInr(b) <-> a=b"
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by (simp add: qsum_defs )
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lemma QInl_QInr_iff [simp]: "QInl(a)=QInr(b) <-> False"
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by (simp add: qsum_defs )
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lemma QInr_QInl_iff [simp]: "QInr(b)=QInl(a) <-> False"
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by (simp add: qsum_defs )
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lemma qsum_empty [simp]: "0<+>0 = 0"
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by (simp add: qsum_defs )
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(*Injection and freeness rules*)
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lemmas QInl_inject = QInl_iff [THEN iffD1, standard]
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lemmas QInr_inject = QInr_iff [THEN iffD1, standard]
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lemmas QInl_neq_QInr = QInl_QInr_iff [THEN iffD1, THEN FalseE, elim!]
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lemmas QInr_neq_QInl = QInr_QInl_iff [THEN iffD1, THEN FalseE, elim!]
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lemma QInlD: "QInl(a): A<+>B ==> a: A"
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by blast
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lemma QInrD: "QInr(b): A<+>B ==> b: B"
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by blast
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(** <+> is itself injective... who cares?? **)
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lemma qsum_iff:
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     "u: A <+> B <-> (EX x. x:A & u=QInl(x)) | (EX y. y:B & u=QInr(y))"
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by blast
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lemma qsum_subset_iff: "A <+> B <= C <+> D <-> A<=C & B<=D"
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by blast
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lemma qsum_equal_iff: "A <+> B = C <+> D <-> A=C & B=D"
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apply (simp (no_asm) add: extension qsum_subset_iff)
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apply blast
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done
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subsubsection{*Eliminator -- qcase*}
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lemma qcase_QInl [simp]: "qcase(c, d, QInl(a)) = c(a)"
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by (simp add: qsum_defs )
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lemma qcase_QInr [simp]: "qcase(c, d, QInr(b)) = d(b)"
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by (simp add: qsum_defs )
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lemma qcase_type:
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    "[| u: A <+> B;  
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        !!x. x: A ==> c(x): C(QInl(x));    
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        !!y. y: B ==> d(y): C(QInr(y))  
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     |] ==> qcase(c,d,u) : C(u)"
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by (simp add: qsum_defs, auto) 
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(** Rules for the Part primitive **)
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lemma Part_QInl: "Part(A <+> B,QInl) = {QInl(x). x: A}"
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by blast
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lemma Part_QInr: "Part(A <+> B,QInr) = {QInr(y). y: B}"
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by blast
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lemma Part_QInr2: "Part(A <+> B, %x. QInr(h(x))) = {QInr(y). y: Part(B,h)}"
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by blast
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lemma Part_qsum_equality: "C <= A <+> B ==> Part(C,QInl) Un Part(C,QInr) = C"
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by blast
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subsubsection{*Monotonicity*}
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lemma QPair_mono: "[| a<=c;  b<=d |] ==> <a;b> <= <c;d>"
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by (simp add: QPair_def sum_mono)
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lemma QSigma_mono [rule_format]:
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     "[| A<=C;  ALL x:A. B(x) <= D(x) |] ==> QSigma(A,B) <= QSigma(C,D)"
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by blast
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lemma QInl_mono: "a<=b ==> QInl(a) <= QInl(b)"
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by (simp add: QInl_def subset_refl [THEN QPair_mono])
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lemma QInr_mono: "a<=b ==> QInr(a) <= QInr(b)"
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by (simp add: QInr_def subset_refl [THEN QPair_mono])
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lemma qsum_mono: "[| A<=C;  B<=D |] ==> A <+> B <= C <+> D"
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by blast
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end