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SSL smgrpfre.tst
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#@local F
gap> START_TEST("smgrpfre.tst"); # FreeSemigroup gap> FreeSemigroup(fail); Error, usage: FreeSemigroup( [<wfilt>, ]<rank>[, <name>] ) FreeSemigroup( [<wfilt>, ]<name1>[, <name2>[, ...]] ) FreeSemigroup( [<wfilt>, ]<names> ) FreeSemigroup( [<wfilt>, ]infinity[, <name>][, <init>] ) # FreeSemigroup: rank 0 gap> FreeSemigroup(); #I FreeSemigroup cannot make an object with no generators Error, usage: FreeSemigroup( [<wfilt>, ]<rank>[, <name>] ) FreeSemigroup( [<wfilt>, ]<name1>[, <name2>[, ...]] ) FreeSemigroup( [<wfilt>, ]<names> ) FreeSemigroup( [<wfilt>, ]infinity[, <name>][, <init>] ) gap> FreeSemigroup([]); #I FreeSemigroup cannot make an object with no generators Error, usage: FreeSemigroup( [<wfilt>, ]<rank>[, <name>] ) FreeSemigroup( [<wfilt>, ]<name1>[, <name2>[, ...]] ) FreeSemigroup( [<wfilt>, ]<names> ) FreeSemigroup( [<wfilt>, ]infinity[, <name>][, <init>] ) gap> FreeSemigroup(""); #I FreeSemigroup cannot make an object with no generators Error, usage: FreeSemigroup( [<wfilt>, ]<rank>[, <name>] ) FreeSemigroup( [<wfilt>, ]<name1>[, <name2>[, ...]] ) FreeSemigroup( [<wfilt>, ]<names> ) FreeSemigroup( [<wfilt>, ]infinity[, <name>][, <init>] ) gap> FreeSemigroup(0); #I FreeSemigroup cannot make an object with no generators Error, usage: FreeSemigroup( [<wfilt>, ]<rank>[, <name>] ) FreeSemigroup( [<wfilt>, ]<name1>[, <name2>[, ...]] ) FreeSemigroup( [<wfilt>, ]<names> ) FreeSemigroup( [<wfilt>, ]infinity[, <name>][, <init>] ) gap> FreeSemigroup(0, "name"); #I FreeSemigroup cannot make an object with no generators Error, usage: FreeSemigroup( [<wfilt>, ]<rank>[, <name>] ) FreeSemigroup( [<wfilt>, ]<name1>[, <name2>[, ...]] ) FreeSemigroup( [<wfilt>, ]<names> ) FreeSemigroup( [<wfilt>, ]infinity[, <name>][, <init>] ) # FreeSemigroup(infinity[, name[, init]]) gap> FreeSemigroup(infinity); <free semigroup on the generators [ s1, s2, ... ]> gap> FreeSemigroup(infinity, fail); Error, FreeSemigroup( infinity, <name> ): <name> must be a string gap> FreeSemigroup(infinity, []); <free semigroup on the generators [ 1, 2, ... ]> gap> FreeSemigroup(infinity, ""); <free semigroup on the generators [ 1, 2, ... ]> gap> FreeSemigroup(infinity, "nicename"); <free semigroup on the generators [ nicename1, nicename2, ... ]> gap> FreeSemigroup(infinity, fail, fail); Error, FreeSemigroup( infinity, <name>, <init> ): <name> must be a string gap> FreeSemigroup(infinity, "nicename", fail); Error, FreeSemigroup( infinity, <name>, <init> ): <init> must be a finite list gap> FreeSemigroup(infinity, "gen", []); <free semigroup on the generators [ gen1, gen2, ... ]> gap> FreeSemigroup(infinity, "gen", [""]); Error, FreeSemigroup( infinity, <name>, <init> ): <init> must consist of nonem\ pty strings gap> FreeSemigroup(infinity, "gen", ["starter"]); <free semigroup on the generators [ starter, gen2, ... ]> gap> FreeSemigroup(infinity, "gen", ["starter", ""]); Error, FreeSemigroup( infinity, <name>, <init> ): <init> must consist of nonem\ pty strings gap> F := FreeSemigroup(infinity, "gen", ["starter", "second", "third"]); <free semigroup on the generators [ starter, second, ... ]> gap> GeneratorsOfSemigroup(F){[1 .. 4]}; [ starter, second, third, gen4 ] gap> FreeSemigroup(infinity, "gen", ["starter"], fail); Error, usage: FreeSemigroup( [<wfilt>, ]<rank>[, <name>] ) FreeSemigroup( [<wfilt>, ]<name1>[, <name2>[, ...]] ) FreeSemigroup( [<wfilt>, ]<names> ) FreeSemigroup( [<wfilt>, ]infinity[, <name>][, <init>] ) # FreeSemigroup(rank[, name]) gap> F := FreeSemigroup(1); <free semigroup on the generators [ s1 ]> gap> HasIsCommutative(F) and IsCommutative(F); true gap> F := FreeSemigroup(2); <free semigroup on the generators [ s1, s2 ]> gap> HasIsCommutative(F) and not IsCommutative(F); true gap> F := FreeSemigroup(10); <free semigroup on the generators [ s1, s2, s3, s4, s5, s6, s7, s8, s9, s10 ]> gap> F := FreeSemigroup(3, fail); Error, FreeSemigroup( <rank>, <name> ): <name> must be a string gap> F := FreeSemigroup(4, ""); <free semigroup on the generators [ 1, 2, 3, 4 ]> gap> F := FreeSemigroup(5, []); <free semigroup on the generators [ 1, 2, 3, 4, 5 ]> gap> F := FreeSemigroup(4, "cheese"); <free semigroup on the generators [ cheese1, cheese2, cheese3, cheese4 ]> gap> FreeSemigroup(3, "car", fail); Error, usage: FreeSemigroup( [<wfilt>, ]<rank>[, <name>] ) FreeSemigroup( [<wfilt>, ]<name1>[, <name2>[, ...]] ) FreeSemigroup( [<wfilt>, ]<names> ) FreeSemigroup( [<wfilt>, ]infinity[, <name>][, <init>] ) # FreeSemigroup( <name1>, <name2>, ... ) gap> FreeSemigroup("", "second"); Error, FreeSemigroup( <name1>, <name2>, ... ): the names must be nonempty stri\ ngs gap> FreeSemigroup("first", ""); Error, FreeSemigroup( <name1>, <name2>, ... ): the names must be nonempty stri\ ngs gap> FreeSemigroup("first", []); Error, FreeSemigroup( <name1>, <name2>, ... ): the names must be nonempty stri\ ngs gap> FreeSemigroup([], []); Error, FreeSemigroup( <name1>, <name2>, ... ): the names must be nonempty stri\ ngs gap> FreeSemigroup("bacon", "eggs", "beans"); <free semigroup on the generators [ bacon, eggs, beans ]> gap> FreeSemigroup("shed"); <free semigroup on the generators [ shed ]> # FreeSemigroup( [ <name1>, <name2>, ... ] ) gap> FreeSemigroup(InfiniteListOfNames("a")); Error, FreeSemigroup( [<name1>, <name2>, ...] ): there must be only finitely m\ any names gap> FreeSemigroup(["", "second"]); Error, FreeSemigroup( [<name1>, <name2>, ...] ): the names must be nonempty st\ rings gap> FreeSemigroup(["first", ""]); Error, FreeSemigroup( [<name1>, <name2>, ...] ): the names must be nonempty st\ rings gap> FreeSemigroup(["first", []]); Error, FreeSemigroup( [<name1>, <name2>, ...] ): the names must be nonempty st\ rings gap> FreeSemigroup([[], []]); Error, FreeSemigroup( [<name1>, <name2>, ...] ): the names must be nonempty st\ rings gap> FreeSemigroup(["bacon", "eggs", "beans"]); <free semigroup on the generators [ bacon, eggs, beans ]> gap> FreeSemigroup(["grid"]); <free semigroup on the generators [ grid ]> gap> FreeSemigroup(["grid"], fail); Error, usage: FreeSemigroup( [<wfilt>, ]<rank>[, <name>] ) FreeSemigroup( [<wfilt>, ]<name1>[, <name2>[, ...]] ) FreeSemigroup( [<wfilt>, ]<names> ) FreeSemigroup( [<wfilt>, ]infinity[, <name>][, <init>] ) # generatorNames gap> FreeSemigroup(5 : generatorNames := false); Error, Cannot process the `generatorNames` option: the value must be either a \ single string, or a list of sufficiently many nonempty strings (at least 5, in\ this case) gap> PushOptions( rec( generatorNames := fail ) ); gap> FreeSemigroup(3 : generatorNames := ""); <free semigroup on the generators [ 1, 2, 3 ]> gap> FreeSemigroup(2 : generatorNames := "cool"); <free semigroup on the generators [ cool1, cool2 ]> gap> FreeSemigroup(2 : generatorNames := ["red"]); Error, Cannot process the `generatorNames` option: the value must be either a \ single string, or a list of sufficiently many nonempty strings (at least 2, in\ this case) gap> PushOptions( rec( generatorNames := fail ) ); gap> FreeSemigroup(2 : generatorNames := ["red", "yellow"]); <free semigroup on the generators [ red, yellow ]> gap> FreeSemigroup(2 : generatorNames := ["red", "yellow", "green"]); <free semigroup on the generators [ red, yellow ]> gap> FreeSemigroup(2 : generatorNames := ["red", "yellow", "green", fail]); <free semigroup on the generators [ red, yellow ]> gap> FreeSemigroup("gen" : generatorNames := false); <free semigroup on the generators [ gen ]> gap> FreeSemigroup("gen" : generatorNames := "string"); <free semigroup on the generators [ gen ]> # gap> STOP_TEST("smgrpfre.tst"); [ Verzeichnis aufwärts0.16unsichere Verbindung Übersetzung europäischer Sprachen durch Browser ] |
2026-03-28