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# InfiniteNumber -- the class of all infinite numbers

## Methods that use an infinite number :

• InfiniteNumber + InfiniteNumber -- see + -- a unary or binary operator, usually used for addition
• InfiniteNumber + Number -- see + -- a unary or binary operator, usually used for addition
• Number + InfiniteNumber -- see + -- a unary or binary operator, usually used for addition
• - InfiniteNumber -- see - -- a unary or binary operator, usually used for negation or subtraction
• InfiniteNumber - InfiniteNumber -- see - -- a unary or binary operator, usually used for negation or subtraction
• InfiniteNumber - Number -- see - -- a unary or binary operator, usually used for negation or subtraction
• Number - InfiniteNumber -- see - -- a unary or binary operator, usually used for negation or subtraction
• InfiniteNumber // QQ -- see // -- a binary operator, usually used for quotient
• InfiniteNumber // RR -- see // -- a binary operator, usually used for quotient
• InfiniteNumber // ZZ -- see // -- a binary operator, usually used for quotient
• Number // InfiniteNumber -- see // -- a binary operator, usually used for quotient
• InfiniteNumber == InfiniteNumber -- see == -- equality
• InfiniteNumber == Number -- see == -- equality
• Number == InfiniteNumber -- see == -- equality
• > InfiniteNumber -- see > ZZ
• >= InfiniteNumber -- see >= ZZ
• basis(InfiniteNumber,InfiniteNumber,Ideal) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,InfiniteNumber,Matrix) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,InfiniteNumber,Module) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,InfiniteNumber,Ring) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,List,Ideal) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,List,Matrix) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,List,Module) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,List,Ring) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,ZZ,Ideal) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,ZZ,Matrix) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,ZZ,Module) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(InfiniteNumber,ZZ,Ring) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(List,InfiniteNumber,Ideal) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(List,InfiniteNumber,Matrix) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(List,InfiniteNumber,Module) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(List,InfiniteNumber,Ring) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(ZZ,InfiniteNumber,Ideal) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(ZZ,InfiniteNumber,Matrix) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(ZZ,InfiniteNumber,Module) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• basis(ZZ,InfiniteNumber,Ring) -- see basis -- basis or generating set of all or part of a ring, ideal or module
• CC * InfiniteNumber (missing documentation)
• CC + InfiniteNumber (missing documentation)
• CC - InfiniteNumber (missing documentation)
• CC ? InfiniteNumber (missing documentation)
• Constant * InfiniteNumber (missing documentation)
• Constant + InfiniteNumber (missing documentation)
• Constant - InfiniteNumber (missing documentation)
• Constant / InfiniteNumber (missing documentation)
• Constant // InfiniteNumber (missing documentation)
• InfiniteNumber * CC (missing documentation)
• InfiniteNumber * Constant (missing documentation)
• InfiniteNumber * Matrix (missing documentation)
• InfiniteNumber + CC (missing documentation)
• InfiniteNumber + Constant (missing documentation)
• InfiniteNumber - CC (missing documentation)
• InfiniteNumber - Constant (missing documentation)
• InfiniteNumber / CC (missing documentation)
• InfiniteNumber / Constant (missing documentation)
• InfiniteNumber // CC (missing documentation)
• InfiniteNumber // Constant (missing documentation)
• InfiniteNumber // InfiniteNumber (missing documentation)
• InfiniteNumber == RR (missing documentation)
• InfiniteNumber ? CC (missing documentation)
• InfiniteNumber ? RR (missing documentation)
• InfiniteNumber ^ InfiniteNumber (missing documentation)
• integrate(Function,Constant,InfiniteNumber) -- see integrate -- numerical integration
• integrate(Function,InfiniteNumber,Constant) -- see integrate -- numerical integration
• integrate(Function,InfiniteNumber,InfiniteNumber) -- see integrate -- numerical integration
• integrate(Function,InfiniteNumber,Number) -- see integrate -- numerical integration
• integrate(Function,Number,InfiniteNumber) -- see integrate -- numerical integration
• isInfinite(InfiniteNumber) -- see isInfinite -- whether a number is infinite
• isReal(InfiniteNumber) -- see isReal -- whether a number is real
• map(CoherentSheaf,CoherentSheaf,Matrix,InfiniteNumber) (missing documentation)
• Matrix * InfiniteNumber (missing documentation)
• norm(InfiniteNumber,Matrix) -- see norm
• norm(InfiniteNumber,Number) -- see norm
• norm(InfiniteNumber,RingElement) -- see norm
• numeric(InfiniteNumber) -- see numeric -- convert to floating point
• numeric(InfiniteNumber,Constant) -- see numeric -- convert to floating point
• numeric(ZZ,InfiniteNumber) -- see numeric -- convert to floating point
• part(InfiniteNumber,InfiniteNumber,RingElement) -- see part -- select terms of a polynomial by degree(s) or weight(s)
• part(InfiniteNumber,InfiniteNumber,VisibleList,RingElement) -- see part -- select terms of a polynomial by degree(s) or weight(s)
• part(InfiniteNumber,ZZ,RingElement) -- see part -- select terms of a polynomial by degree(s) or weight(s)
• part(InfiniteNumber,ZZ,VisibleList,RingElement) -- see part -- select terms of a polynomial by degree(s) or weight(s)
• part(ZZ,InfiniteNumber,RingElement) -- see part -- select terms of a polynomial by degree(s) or weight(s)
• part(ZZ,InfiniteNumber,VisibleList,RingElement) -- see part -- select terms of a polynomial by degree(s) or weight(s)
• part(InfiniteNumber,InfiniteNumber,Number) (missing documentation)
• part(InfiniteNumber,ZZ,Number) (missing documentation)
• part(ZZ,InfiniteNumber,Number) (missing documentation)
• RR == InfiniteNumber (missing documentation)
• RR ? InfiniteNumber (missing documentation)
• truncate(BettiTally,InfiniteNumber,InfiniteNumber) (missing documentation)
• truncate(BettiTally,InfiniteNumber,ZZ) (missing documentation)
• truncate(BettiTally,ZZ,InfiniteNumber) (missing documentation)
• truncate(InfiniteNumber,Thing) (missing documentation)
• truncateOutput(InfiniteNumber) -- see truncateOutput

## For the programmer

The object InfiniteNumber is a type, with ancestor classes BasicList < Thing.