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<H1>Algebra  Classical Algebra, using Explicit Structures and Locales</H1> 
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This directory contains proofs in classical algebra. It is intended 
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as a base for any algebraic development in Isabelle. Emphasis is on 

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reusability. This is achieved by modelling algebraic structures 

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as firstclass citizens of the logic (not axiomatic type classes, say). 

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The library is expected to grow in future releases of Isabelle. 

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Contributions are welcome. 

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<H2>GroupTheory, including Sylow's Theorem</H2> 
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<P>These proofs are mainly by Florian Kammller. (Later, Larry 
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Paulson simplified some of the proofs.) These theories were indeed 
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the original motivation for locales. 
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Here is an outline of the directory's contents: <UL> <LI>Theory <A 
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HREF="Group.html"><CODE>Group</CODE></A> defines semigroups, monoids, 
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groups, commutative monoids, commutative groups, homomorphisms and the 
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subgroup relation. It also defines the product of two groups 
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(This theory was reimplemented by Clemens Ballarin). 
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<LI>Theory <A HREF="FiniteProduct.html"><CODE>FiniteProduct</CODE></A> extends 
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commutative groups by a product operator for finite sets (provided by 
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Clemens Ballarin). 
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<LI>Theory <A HREF="Coset.html"><CODE>Coset</CODE></A> defines 
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the factorization of a group and shows that the factorization a normal 
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subgroup is a group. 
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<LI>Theory <A HREF="Bij.html"><CODE>Bij</CODE></A> 
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defines bijections over sets and operations on them and shows that they 
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are a group. It shows that automorphisms form a group. 
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<LI>Theory <A HREF="Exponent.html"><CODE>Exponent</CODE></A> the 
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combinatorial argument underlying Sylow's first theorem. 
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<LI>Theory <A HREF="Sylow.html"><CODE>Sylow</CODE></A> 
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contains a proof of the first Sylow theorem. 
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</UL> 
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<H2>Rings and Polynomials</H2> 
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<UL><LI>Theory <A HREF="CRing.html"><CODE>CRing</CODE></A> 
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defines Abelian monoids and groups. The difference to commutative 
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structures is merely notational: the binary operation is 
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addition rather than multiplication. Commutative rings are 
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obtained by inheriting properties from Abelian groups and 
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commutative monoids. Further structures in the algebraic 
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hierarchy of rings: integral domain. 
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<LI>Theory <A HREF="Module.html"><CODE>Module</CODE></A> 
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introduces the notion of a Rleftmodule over an Abelian group, where 
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R is a ring. 
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<LI>Theory <A HREF="UnivPoly.html"><CODE>UnivPoly</CODE></A> 
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constructs univariate polynomials over rings and integral domains. 
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Degree function. Universal Property. 
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</UL> 
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<H2>Legacy Development of Rings using Axiomatic Type Classes</H2> 
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<P>This development of univariate polynomials is separated into an 

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abstract development of rings and the development of polynomials 

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itself. The formalisation is based on [Jacobson1985], and polynomials 

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have a sparse, mathematical representation. These theories were 

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developed as a base for the integration of a computer algebra system 

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to Isabelle [Ballarin1999], and was designed to match implementations 

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of these domains in some typed computer algebra systems. Summary: 

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<P><EM>Rings:</EM> 

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Classes of rings are represented by axiomatic type classes. The 

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following are available: 

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<PRE> 

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ring: Commutative rings with one (including a summation 

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operator, which is needed for the polynomials) 

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domain: Integral domains 

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factorial: Factorial domains (divisor chain condition is missing) 

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pid: Principal ideal domains 

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field: Fields 

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</PRE> 

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Also, some facts about ring homomorphisms and ideals are mechanised. 

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<P><EM>Polynomials:</EM> 

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Polynomials have a natural, mathematical representation. Facts about 

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the following topics are provided: 

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<MENU> 

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<LI>Degree function 

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<LI> Universal Property, evaluation homomorphism 

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<LI>Long division (existence and uniqueness) 

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<LI>Polynomials over a ring form a ring 

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<LI>Polynomials over an integral domain form an integral domain 

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</MENU> 

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<P>[Jacobson1985] Nathan Jacobson, Basic Algebra I, Freeman, 1985. 

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<P>[Ballarin1999] Clemens Ballarin, Computer Algebra and Theorem Proving, 

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Author's <A HREF="http://www4.in.tum.de/~ballarin/publications.html">PhD thesis</A>, 1999. 
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<HR> 
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<P>Last modified on $Date$ 

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<ADDRESS> 

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<P><A HREF="http://www4.in.tum.de/~ballarin">Clemens Ballarin</A>. 
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</ADDRESS> 
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