Extend coverage of documentation to lib/structure.g[di]
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@ -35,7 +35,8 @@ Perhaps the following ⪆ interactive session, which constructs the
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conjugation quandle of the symmetric group on three elements and then performs
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conjugation quandle of the symmetric group on three elements and then performs
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a few simple computations on that quandle, will give the flavor of &RAQ;. (It is
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a few simple computations on that quandle, will give the flavor of &RAQ;. (It is
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presumed that the &RAQ; package has already been loaded with
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presumed that the &RAQ; package has already been loaded with
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`LoadPackage("RAQ");` prior to these example commands being executed.)
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`LoadPackage("RAQ");` prior to these example commands being executed, and that
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remains true throughout the package documentation.)
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<!--@BeginExampleSession ``` -->
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<!--@BeginExampleSession ``` -->
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```
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```
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gap> S3 := SymmetricGroup(3);
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gap> S3 := SymmetricGroup(3);
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@ -1,11 +1,29 @@
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@Chapter construct
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@Chapter construct
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@ChapterTitle Constructing One-Sided Quasigroups, Racks, and Quandles.
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@ChapterTitle Constructing One-Sided Quasigroups, Racks, and Quandles.
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@Section from_scratch
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@SectionTitle Direct constructors
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All of the functions in this section produce magmas (of one of the
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categories with which &RAQ; is concerned) from data of other (non-domain)
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types.
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@Chapter operate
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@Chapter operate
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@ChapterTitle Operations on One-Sided Quasigroups, Racks, and Quandles.
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@ChapterTitle Operations on One-Sided Quasigroups, Racks, and Quandles.
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@Chapter basic
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@Chapter basic
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@ChapterTitle Basic Notions
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@ChapterTitle Basic Notions
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In order to build up and define one-sided quasigroups, racks, and
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quandles, &RAQ; must define several lower-level objects and properties,
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which are documented in this section. Although logically they come before
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the domain constructors and operations, they are presented afterwards
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because it's rare that one needs to use them directly when working with
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&RAQ;.
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@Section elements
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@SectionTitle Categories of elements
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@Section collections
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@SectionTitle Categories of collections
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@Chapter technical
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@Chapter technical
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This chapter covers computational/operational aspects of &RAQ;
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rather than mathematical ones.
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@ChapterTitle Technical Details
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@ChapterTitle Technical Details
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@ -6,4 +6,8 @@ AutoDoc(rec(
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autodoc := rec(files := ["README.md", "doc/chapters.autodoc"]),
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autodoc := rec(files := ["README.md", "doc/chapters.autodoc"]),
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maketest := rec(name := "tst/AutoDoc_tests.g")
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maketest := rec(name := "tst/AutoDoc_tests.g")
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));
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));
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QUIT;
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if not IsBound(RAQ_makedoc_no_quit) or
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not RAQ_makedoc_no_quit then
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QUIT_GAP();
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fi;
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181
lib/bytable.gd
181
lib/bytable.gd
@ -1,43 +1,192 @@
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## bytable.gd RAQ Quasigroups, racks, and quandles by multiplication tables.
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## bytable.gd RAQ Quasigroups, racks, and quandles by multiplication tables.
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## Self-distributivity
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#! @Chapter basic
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# Predicates on tables:
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#! @Section table_predicates
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#! @SectionTitle Predicates on multiplication tables
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#! @Arguments matrix
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#! @Description This property is true if <A>matrix</A> is the multiplication
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#! table of a magma which satisfies the left self-distributive property (see
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#! <Ref Filt="IsLSelfDistElement" Label="for IsMultiplicativeElement"/>))
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#! for all triples of elements.
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DeclareProperty( "IsLeftSelfDistributiveTable", IsMatrix );
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DeclareProperty( "IsLeftSelfDistributiveTable", IsMatrix );
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#! @Arguments matrix
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#! @Description This property is true if <A>matrix</A> is the multiplication
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#! table of a magma which satisfies the rightt self-distributive property (see
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#! <Ref Filt="IsLSelfDistElement" Label="for IsMultiplicativeElement"/>))
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#! for all triples of elements.
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DeclareProperty( "IsRightSelfDistributiveTable", IsMatrix );
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DeclareProperty( "IsRightSelfDistributiveTable", IsMatrix );
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#! @Arguments matrix
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#! @Description This property is true if for all $i$ less than or equal to the
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#! number of rows of <A>matrix</A>, the $(i,i)$ entry of <A>matrix</A> is
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#! $i$.
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DeclareProperty( "IsElementwiseIdempotentTable", IsMatrix );
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DeclareProperty( "IsElementwiseIdempotentTable", IsMatrix );
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## Attributes (typically used on the families of elements created from a
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#! @Chapter operate
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## multiplication table) to store sections and division tables
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#! @Section table
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#! @Section Information related to the multiplication table.
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#! Note that typically the functions in this section will fail unless the
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#! argument was either created with a multiplication table, or at least has
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#! had its multiplication table explicitly computed.
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#! @Arguments obj
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#! @Returns a list of permutations of length equal to `Size(obj)`, or fail
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#! @Description The $i$th element of the list returned is the permutation
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#! determined by the $i$th row of the multiplication table of
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#! <A>obj</A> (in the sense of the core &GAP;
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#! function `PermList`). Returns fail if any row of the multiplication table
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#! does not determine a permuation.
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DeclareAttribute("LeftPerms", HasMultiplicationTable);
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DeclareAttribute("LeftPerms", HasMultiplicationTable);
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DeclareAttribute("RightPerms", HasMultiplicationTable);
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#! @BeginExampleSession
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DeclareAttribute("LeftDivisionTable", HasMultiplicationTable);
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#! gap> D3 := LeftQuandleByMultiplicationTable([[1,3,2],[3,2,1],[2,1,3]]);
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DeclareAttribute("RightDivisionTable", HasMultiplicationTable);
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#! <left quandle with 3 generators>
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#! gap> LeftPerms(D3);
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#! [ (2,3), (1,3), (1,2) ]
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#! @EndExampleSession
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## Create Quasigroups and racks from multiplication tables
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#! @Arguments obj
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#! @Returns a list of permutations of length equal to `Size(obj)`, or fail
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#! @Description The $i$th element of the list returned is the permutation
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#! determined by the $i$th column of the multiplication table of
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#! <A>obj</A> (in the sense of the core &GAP;
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#! function `PermList`). Returns fail if any column of the multiplication table
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#! does not determine a permuation.
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DeclareAttribute("RightPerms", HasMultiplicationTable);
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#! @Arguments obj
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#! @Returns an operation table matrix, or fail
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#! @Description Presuming it is well-defined, this produces the operation
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#! table (following similar conventions for multiplication tables, e.g.,
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#! every entry is a natural number less than `Size(obj)`) for `LeftQuotient`
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#! on the given <A>obj</A>. Returns fail if `LeftQuotient` is not
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#! well-defined for <A>obj</A>.
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DeclareAttribute("LeftDivisionTable", HasMultiplicationTable);
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#! @Arguments obj
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#! @Returns an operation table matrix, or fail
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#! @Description Presuming it is well-defined, this produces the operation
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#! table for `\/` (the typical elementwise (right) quotient) on the given
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#! <A>obj</A>. Returns fail if `\/` is not
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#! well-defined for <A>obj</A>.
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DeclareAttribute("RightDivisionTable", HasMultiplicationTable);
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#! @BeginExampleSession
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#! gap> A4 := RightQuandleByMultiplicationTable([[1,4,2,3],
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#! > [3,2,4,1],
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#! > [4,1,3,2],
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#! > [2,3,1,4]]);
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#! <right quandle with 4 generators>
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#! gap> RightDivisionTable(A4);
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#! [ [ 1, 3, 4, 2 ], [ 4, 2, 1, 3 ], [ 2, 4, 3, 1 ], [ 3, 1, 2, 4 ] ]
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#! @EndExampleSession
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#! @Chapter construct
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#! @Section from_scratch
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#! @BeginGroup table_constructors
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#! @GroupTitle Constructors from tables
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#! @Returns a magma of the designated category
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#! @Description These functions produce magmas from their multiplication
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#! tables, exactly analogously with the core &GAP; function
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#! `MagmaByMultiplicationTable` (q.v.); all of the same conventions are
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#! followed, such as the table should be an $n\times n$ matrix in which
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#! every entry is a natural number less than or equal to $n$. These
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#! functions verify that the tables supplied in fact define an example of
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#! the designated category.
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#! @GroupInitialArguments table
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DeclareGlobalFunction("LeftQuasigroupByMultiplicationTable");
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DeclareGlobalFunction("LeftQuasigroupByMultiplicationTable");
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DeclareGlobalFunction("LeftQuasigroupByMultiplicationTableNC");
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DeclareGlobalFunction("LeftRackByMultiplicationTable");
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DeclareGlobalFunction("LeftRackByMultiplicationTable");
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DeclareGlobalFunction("LeftRackByMultiplicationTableNC");
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DeclareGlobalFunction("LeftQuandleByMultiplicationTable");
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DeclareGlobalFunction("LeftQuandleByMultiplicationTable");
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DeclareGlobalFunction("LeftQuandleByMultiplicationTableNC");
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DeclareGlobalFunction("RightQuasigroupByMultiplicationTable");
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DeclareGlobalFunction("RightQuasigroupByMultiplicationTable");
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DeclareGlobalFunction("RightQuasigroupByMultiplicationTableNC");
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DeclareGlobalFunction("RightRackByMultiplicationTable");
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DeclareGlobalFunction("RightRackByMultiplicationTable");
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DeclareGlobalFunction("RightRackByMultiplicationTableNC");
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DeclareGlobalFunction("RightQuandleByMultiplicationTable");
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DeclareGlobalFunction("RightQuandleByMultiplicationTable");
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#! @EndGroup
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#! @BeginExampleSession
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#! gap> D3 := LeftQuandleByMultiplicationTable([[1,3,2],[3,2,1],[2,1,3]]);
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#! <left quandle with 3 generators>
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#! gap> SpecifyElmNamePrefix(D3, "d");
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#! gap> Elements(D3);
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#! [ d1, d2, d3 ]
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#! gap> IsBound(d1);
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#! false
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#! gap> BindElmNames(D3);
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#! gap> d1 * d2;
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#! d3
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#! @EndExampleSession
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#! @BeginGroup unchecked_table_constructors
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#! @GroupTitle Unchecked constructors from tables
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#! @Returns a magma of the designated category
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#! @Description Each of these functions is exactly like its counterpart
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#! without the `NC` suffix, except that it does not perform any verification
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#! that the supplied table in fact satisfies the necessary axioms for the
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#! designated category. (The verification is skipped to save computation
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#! time, for use in cases when the properties are known to hold.) Hence, use
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#! with caution: the behavior of this
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#! package if you supply a table which does not satisfy the appropiate
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#! axioms is undefined.
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#! @GroupInitialArguments table
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DeclareGlobalFunction("LeftQuasigroupByMultiplicationTableNC");
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DeclareGlobalFunction("LeftRackByMultiplicationTableNC");
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DeclareGlobalFunction("LeftQuandleByMultiplicationTableNC");
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DeclareGlobalFunction("RightQuasigroupByMultiplicationTableNC");
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DeclareGlobalFunction("RightRackByMultiplicationTableNC");
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DeclareGlobalFunction("RightQuandleByMultiplicationTableNC");
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DeclareGlobalFunction("RightQuandleByMultiplicationTableNC");
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#! @EndGroup
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## Property of a collection that its elements know their multiplication table
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## Property of a collection that its elements know their multiplication table
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#! @Chapter technical
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#! @Section reps
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#! @SectionTitle Representational issues
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#! @Arguments collection
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#! @Description True if the family of the elements in the collection possesses
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#! a global multiplication table. This value is used to control whether more
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#! efficient algorithms are used in particular cases.
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DeclareProperty("IsBuiltFromMultiplicationTable", IsCollection);
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DeclareProperty("IsBuiltFromMultiplicationTable", IsCollection);
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## Create quasigroups etc by permutations
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## Create quasigroups etc by permutations
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#! @Chapter construct
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#! @Section from_scratch
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#! @BeginGroup perms_constructors
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#! @GroupTitle Constructors from permutations
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#! @Returns a magma of the designated category
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#! @Description These functions produce magmas from a sequence of
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#! permutations. That is to say, because all of the categories supported in
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#! &RAQ; are quasigroups on at least one side, either the left
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#! multiplicative action of an element on the magma is always a permutation
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#! (in the case of left quasigroups) or the right multiplicative action of
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#! an element on the magma is always a permutation. Hence, a magma in these
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#! categories can always be specified by a list of $n$ permutations on
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#! the natural numbers less than or equal to $n$ (i.e., ordinary &GAP;
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#! permutations) and that's what these
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#! functions do. In effect, the argument to the `Left` functions gives the
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#! rows of the multiplication table (as permutation objects), and the to the
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#! `Right` functions gives the columns.
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#! @GroupInitialArguments permutation-list
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DeclareGlobalFunction("LeftQuasigroupByPerms");
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DeclareGlobalFunction("LeftQuasigroupByPerms");
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DeclareGlobalFunction("LeftRackByPerms");
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DeclareGlobalFunction("LeftRackByPerms");
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DeclareGlobalFunction("LeftRackByPermsNC");
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DeclareGlobalFunction("LeftQuandleByPerms");
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DeclareGlobalFunction("LeftQuandleByPerms");
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DeclareGlobalFunction("LeftQuandleByPermsNC");
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DeclareGlobalFunction("RightQuasigroupByPerms");
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DeclareGlobalFunction("RightQuasigroupByPerms");
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DeclareGlobalFunction("RightRackByPerms");
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DeclareGlobalFunction("RightRackByPerms");
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DeclareGlobalFunction("RightRackByPermsNC");
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DeclareGlobalFunction("RightQuandleByPerms");
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DeclareGlobalFunction("RightQuandleByPerms");
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#! @EndGroup
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#! @BeginExampleSession
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#! gap> D3 := LeftQuandleByPerms( [ (2,3), (1,3), (1,2) ] );
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#! <left quandle with 3 generators>
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#! gap> SpecifyElmNamePrefix(D3, "p");
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#! gap> BindElmNames(D3);
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#! gap> p2*p3;
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#! p1
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#! @EndExampleSession
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#! @BeginGroup unchecked_perms_constructors
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#! @GroupTitle Unchecked constructors from permutations
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#! @Returns a magma of the designated category
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#! @Description These functions are exactly the same as their counterparts
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#! without `NC` except that to save time they do not verify that the given
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#! permutations satisfy the appropriate axioms. Hence use caution, as
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#! supplying a list of permutations which does not form the proper structure
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#! can lead to undefined behavior. Note that there are no unchecked versions
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#! for the bare quasigroup constructors because the only properties required
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#! are that all of the rows (or columns, in the `Right` case) are permutations.
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#! @GroupInitialArguments permutation-list
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DeclareGlobalFunction("LeftRackByPermsNC");
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DeclareGlobalFunction("LeftQuandleByPermsNC");
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DeclareGlobalFunction("RightRackByPermsNC");
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DeclareGlobalFunction("RightQuandleByPermsNC");
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DeclareGlobalFunction("RightQuandleByPermsNC");
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#! @EndGroup
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@ -3,8 +3,6 @@
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## GAP Categories and representations
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## GAP Categories and representations
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#! @Chapter technical
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#! @Chapter technical
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#! This chapter covers computational/operational aspects of &RAQ;
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#! rather than mathematical ones.
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#! @Section Messages
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#! @Section Messages
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#! @Description Controls the level of verbosity of &RAQ;'s informative
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#! @Description Controls the level of verbosity of &RAQ;'s informative
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#! messages. Use `SetInfoLevel` to set it to 0 to quiet &RAQ;
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#! messages. Use `SetInfoLevel` to set it to 0 to quiet &RAQ;
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@ -22,14 +20,7 @@ DeclareInfoClass("InfoRAQ");
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# new, non-conflicting terms.
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# new, non-conflicting terms.
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#! @Chapter basic
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#! @Chapter basic
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#! In order to build up and define one-sided quasigroups, racks, and
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#! quandles, &RAQ; must define several lower-level objects and properties,
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#! which are documented in this section. Although logically they come before
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#! the domain constructors and operations, they are presented afterwards
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#! because it's rare that one needs to use them directly when working with
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#! &RAQ;.
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#! @Section elements
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#! @Section elements
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#! @SectionTitle Categories of elements
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#! @Description An element <C>x</C> with the property
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#! @Description An element <C>x</C> with the property
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#! that for all elements <C>y</C> and <C>z</C> in its family, <C>x*(y*z) =
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#! that for all elements <C>y</C> and <C>z</C> in its family, <C>x*(y*z) =
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#! (x*y)*(x*z)</C>.
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#! (x*y)*(x*z)</C>.
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@ -46,7 +37,6 @@ DeclareCategory("IsRSelfDistElement", IsMultiplicativeElement);
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DeclareCategoryCollections("IsRSelfDistElement");
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DeclareCategoryCollections("IsRSelfDistElement");
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#! @Section collections
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#! @Section collections
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#! @SectionTitle Categories of collections
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#! @Description A collection which satisfies the left self-distributive
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#! @Description A collection which satisfies the left self-distributive
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#! property (see the description of
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#! property (see the description of
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#! <Ref Filt="IsLSelfDistElement" Label="for IsMultiplicativeElement"/>)
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#! <Ref Filt="IsLSelfDistElement" Label="for IsMultiplicativeElement"/>)
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@ -80,11 +70,13 @@ InstallTrueMethod(IsElementwiseIdempotent, IsIdempotentCollection);
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#! (i.e., <C>IsLSelfDistributive(obj)</C> is true).
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#! (i.e., <C>IsLSelfDistributive(obj)</C> is true).
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#! @Arguments obj
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#! @Arguments obj
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#! @ItemType Filt
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#! @ItemType Filt
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#! @Returns true or false
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DeclareSynonym("IsLeftRack", IsLeftQuasigroup and IsLSelfDistributive);
|
DeclareSynonym("IsLeftRack", IsLeftQuasigroup and IsLSelfDistributive);
|
||||||
#! @Description Tests whether <A>obj</A> is a right rack, by definition
|
#! @Description Tests whether <A>obj</A> is a right rack, by definition
|
||||||
#! precisely that it is a right quasigroup and right self-distributive.
|
#! precisely that it is a right quasigroup and right self-distributive.
|
||||||
#! @Arguments obj
|
#! @Arguments obj
|
||||||
#! @ItemType Filt
|
#! @ItemType Filt
|
||||||
|
#! @Returns true or false
|
||||||
DeclareSynonym("IsRightRack", IsRightQuasigroup and IsRSelfDistributive);
|
DeclareSynonym("IsRightRack", IsRightQuasigroup and IsRSelfDistributive);
|
||||||
|
|
||||||
#! @Description Tests whether <A>obj</A> is a left quandle, which by definition
|
#! @Description Tests whether <A>obj</A> is a left quandle, which by definition
|
||||||
@ -93,20 +85,18 @@ DeclareSynonym("IsRightRack", IsRightQuasigroup and IsRSelfDistributive);
|
|||||||
#! (i.e., <C>IsElementwiseIdempotent(obj)</C> is true).
|
#! (i.e., <C>IsElementwiseIdempotent(obj)</C> is true).
|
||||||
#! @Arguments obj
|
#! @Arguments obj
|
||||||
#! @ItemType Filt
|
#! @ItemType Filt
|
||||||
|
#! @Returns true or false
|
||||||
DeclareSynonym("IsLeftQuandle", IsLeftRack and IsElementwiseIdempotent);
|
DeclareSynonym("IsLeftQuandle", IsLeftRack and IsElementwiseIdempotent);
|
||||||
|
|
||||||
#! @Description Tests whether <A>obj</A> is a right quandle, by definition
|
#! @Description Tests whether <A>obj</A> is a right quandle, by definition
|
||||||
#! precisely that it is a right rack and every element is idempotent.
|
#! precisely that it is a right rack and every element is idempotent.
|
||||||
#! @Arguments obj
|
#! @Arguments obj
|
||||||
#! @ItemType Filt
|
#! @ItemType Filt
|
||||||
|
#! @Returns true or false
|
||||||
DeclareSynonym("IsRightQuandle", IsRightRack and IsElementwiseIdempotent);
|
DeclareSynonym("IsRightQuandle", IsRightRack and IsElementwiseIdempotent);
|
||||||
|
|
||||||
#! @Chapter construct
|
#! @Chapter construct
|
||||||
#! @Section from_scratch
|
#! @Section from_scratch
|
||||||
#! @SectionTitle Direct constructors
|
|
||||||
#! All of the functions in this section produce magmas (of one of the
|
|
||||||
#! categories with which &RAQ; is concerned) from data of other (non-domain)
|
|
||||||
#! types.
|
|
||||||
#! @BeginAutoDoc
|
#! @BeginAutoDoc
|
||||||
#! @BeginGroup basic_constructors
|
#! @BeginGroup basic_constructors
|
||||||
#! @GroupTitle Basic constructors (from generators)
|
#! @GroupTitle Basic constructors (from generators)
|
||||||
@ -123,13 +113,13 @@ DeclareSynonym("IsRightQuandle", IsRightRack and IsElementwiseIdempotent);
|
|||||||
#! quotients on the specified side must exist; racks must also satisfy the
|
#! quotients on the specified side must exist; racks must also satisfy the
|
||||||
#! appropriate self-distributive law; and quandles must also have every
|
#! appropriate self-distributive law; and quandles must also have every
|
||||||
#! element idempotent.
|
#! element idempotent.
|
||||||
#! @Returns a magma of the named category
|
#! @Returns a magma of the designated category
|
||||||
#! @GroupInitialArguments [family], [generators]
|
#! @GroupInitialArguments [family], [generators]
|
||||||
DeclareGlobalFunction("LeftQuasigroup");
|
DeclareGlobalFunction("LeftQuasigroup");
|
||||||
DeclareGlobalFunction("RightQuasigroup");
|
|
||||||
DeclareGlobalFunction("LeftRack");
|
DeclareGlobalFunction("LeftRack");
|
||||||
DeclareGlobalFunction("RightRack");
|
|
||||||
DeclareGlobalFunction("LeftQuandle");
|
DeclareGlobalFunction("LeftQuandle");
|
||||||
|
DeclareGlobalFunction("RightQuasigroup");
|
||||||
|
DeclareGlobalFunction("RightRack");
|
||||||
DeclareGlobalFunction("RightQuandle");
|
DeclareGlobalFunction("RightQuandle");
|
||||||
#! @EndGroup
|
#! @EndGroup
|
||||||
#! @BeginGroup unchecked_basic_constructors
|
#! @BeginGroup unchecked_basic_constructors
|
||||||
@ -144,10 +134,10 @@ DeclareGlobalFunction("RightQuandle");
|
|||||||
#! @Returns a magma of the named category
|
#! @Returns a magma of the named category
|
||||||
#! @GroupInitialArguments family, generators
|
#! @GroupInitialArguments family, generators
|
||||||
DeclareGlobalFunction("LeftQuasigroupNC");
|
DeclareGlobalFunction("LeftQuasigroupNC");
|
||||||
DeclareGlobalFunction("RightQuasigroupNC");
|
|
||||||
DeclareGlobalFunction("LeftRackNC");
|
DeclareGlobalFunction("LeftRackNC");
|
||||||
DeclareGlobalFunction("RightRackNC");
|
|
||||||
DeclareGlobalFunction("LeftQuandleNC");
|
DeclareGlobalFunction("LeftQuandleNC");
|
||||||
|
DeclareGlobalFunction("RightQuasigroupNC");
|
||||||
|
DeclareGlobalFunction("RightRackNC");
|
||||||
DeclareGlobalFunction("RightQuandleNC");
|
DeclareGlobalFunction("RightQuandleNC");
|
||||||
#! @EndGroup
|
#! @EndGroup
|
||||||
#! @EndAutoDoc
|
#! @EndAutoDoc
|
||||||
|
@ -9,6 +9,15 @@ TestDirectory(tst_path,
|
|||||||
testOptions := rec(compareFunction := "uptowhitespace"))
|
testOptions := rec(compareFunction := "uptowhitespace"))
|
||||||
);
|
);
|
||||||
|
|
||||||
|
# Now make sure the manual tests are up to date
|
||||||
|
|
||||||
|
doc_path := DirectoriesPackageLibrary("RAQ", "doc");
|
||||||
|
makedoc_file := Filename(doc_path, "makedoc.g");
|
||||||
|
|
||||||
|
RAQ_makedoc_no_quit := true;
|
||||||
|
Info(InfoRAQ, 1, "Generating RAQ documentation..\n\n");
|
||||||
|
Read(makedoc_file);
|
||||||
|
|
||||||
auto_file := Filename(tst_path, "AutoDoc_tests.g");
|
auto_file := Filename(tst_path, "AutoDoc_tests.g");
|
||||||
|
|
||||||
if auto_file <> fail then
|
if auto_file <> fail then
|
||||||
|
Loading…
Reference in New Issue
Block a user