GuessIntegerΒΆ
mantepse.spad line 3774 [edit on github]
This package exports guessing of sequences of rational numbers
algDepHP: (List List Fraction Integer, List GuessOption) -> Record(degreeStream: Stream NonNegativeInteger, guessStream: UnivariateFormalPowerSeries Fraction Integer -> Stream UnivariateFormalPowerSeries Fraction Integer, guessModGen: NonNegativeInteger -> (List U32Vector, Integer, Integer) -> Vector U32Vector, testGen: List PositiveInteger -> UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger) -> Vector UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), exprStream: (Expression Integer, Symbol) -> Stream Expression Integer, kind: Symbol, qvar: Symbol, A: (NonNegativeInteger, NonNegativeInteger, SparseUnivariatePolynomial Integer) -> Integer, AF: (NonNegativeInteger, NonNegativeInteger, UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger)) -> SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), AX: (NonNegativeInteger, Symbol, Expression Integer) -> Expression Integer, C: NonNegativeInteger -> List Integer)
diffHP: List GuessOption -> Record(degreeStream: Stream NonNegativeInteger, guessStream: UnivariateFormalPowerSeries Fraction Integer -> Stream UnivariateFormalPowerSeries Fraction Integer, guessModGen: NonNegativeInteger -> (List U32Vector, Integer, Integer) -> Vector U32Vector, testGen: List PositiveInteger -> UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger) -> Vector UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), exprStream: (Expression Integer, Symbol) -> Stream Expression Integer, kind: Symbol, qvar: Symbol, A: (NonNegativeInteger, NonNegativeInteger, SparseUnivariatePolynomial Integer) -> Integer, AF: (NonNegativeInteger, NonNegativeInteger, UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger)) -> SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), AX: (NonNegativeInteger, Symbol, Expression Integer) -> Expression Integer, C: NonNegativeInteger -> List Integer)
diffHP: Symbol -> List GuessOption -> Record(degreeStream: Stream NonNegativeInteger, guessStream: UnivariateFormalPowerSeries Fraction Integer -> Stream UnivariateFormalPowerSeries Fraction Integer, guessModGen: NonNegativeInteger -> (List U32Vector, Integer, Integer) -> Vector U32Vector, testGen: List PositiveInteger -> UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger) -> Vector UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), exprStream: (Expression Integer, Symbol) -> Stream Expression Integer, kind: Symbol, qvar: Symbol, A: (NonNegativeInteger, NonNegativeInteger, SparseUnivariatePolynomial Integer) -> Integer, AF: (NonNegativeInteger, NonNegativeInteger, UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger)) -> SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), AX: (NonNegativeInteger, Symbol, Expression Integer) -> Expression Integer, C: NonNegativeInteger -> List Integer) if Integer has RetractableTo Symbol and Fraction Integer has RetractableTo Symbol
guess: (List Fraction Integer, List GuessOption) -> List Expression Integer
guess: (List Fraction Integer, List((List Fraction Integer, List GuessOption) -> List Expression Integer), List Symbol) -> List Expression Integer
guess: (List Fraction Integer, List((List Fraction Integer, List GuessOption) -> List Expression Integer), List Symbol, List GuessOption) -> List Expression Integer
guess: List Fraction Integer -> List Expression Integer
guessADE: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessADE: List Fraction Integer -> List Expression Integer
guessADE: Symbol -> (List Fraction Integer, List GuessOption) -> List Expression Integer if Integer has RetractableTo Symbol and Fraction Integer has RetractableTo Symbol
guessAlg: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessAlg: List Fraction Integer -> List Expression Integer
guessAlgDep: (List List Fraction Integer, List GuessOption) -> List Expression Integer
guessAlgDep: List List Fraction Integer -> List Expression Integer
guessBinRat: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessBinRat: List Fraction Integer -> List Expression Integer
guessBinRat: Symbol -> (List Fraction Integer, List GuessOption) -> List Expression Integer if Integer has RetractableTo Symbol and Fraction Integer has RetractableTo Symbol
guessExpRat: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessExpRat: List Fraction Integer -> List Expression Integer
guessExpRat: Symbol -> (List Fraction Integer, List GuessOption) -> List Expression Integer if Integer has RetractableTo Symbol and Fraction Integer has RetractableTo Symbol
guessFE: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessFE: List Fraction Integer -> List Expression Integer
guessHolo: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessHolo: List Fraction Integer -> List Expression Integer
guessHolo: Symbol -> (List Fraction Integer, List GuessOption) -> List Expression Integer if Integer has RetractableTo Symbol and Fraction Integer has RetractableTo Symbol
guessPade: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessPade: List Fraction Integer -> List Expression Integer
guessPRec: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessPRec: List Fraction Integer -> List Expression Integer
guessPRec: Symbol -> (List Fraction Integer, List GuessOption) -> List Expression Integer if Integer has RetractableTo Symbol and Fraction Integer has RetractableTo Symbol
guessRat: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessRat: List Fraction Integer -> List Expression Integer
guessRat: Symbol -> (List Fraction Integer, List GuessOption) -> List Expression Integer if Integer has RetractableTo Symbol and Fraction Integer has RetractableTo Symbol
guessRec: (List Fraction Integer, List GuessOption) -> List Expression Integer
guessRec: List Fraction Integer -> List Expression Integer
guessRec: Symbol -> (List Fraction Integer, List GuessOption) -> List Expression Integer if Integer has RetractableTo Symbol and Fraction Integer has RetractableTo Symbol
shiftHP: List GuessOption -> Record(degreeStream: Stream NonNegativeInteger, guessStream: UnivariateFormalPowerSeries Fraction Integer -> Stream UnivariateFormalPowerSeries Fraction Integer, guessModGen: NonNegativeInteger -> (List U32Vector, Integer, Integer) -> Vector U32Vector, testGen: List PositiveInteger -> UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger) -> Vector UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), exprStream: (Expression Integer, Symbol) -> Stream Expression Integer, kind: Symbol, qvar: Symbol, A: (NonNegativeInteger, NonNegativeInteger, SparseUnivariatePolynomial Integer) -> Integer, AF: (NonNegativeInteger, NonNegativeInteger, UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger)) -> SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), AX: (NonNegativeInteger, Symbol, Expression Integer) -> Expression Integer, C: NonNegativeInteger -> List Integer)
shiftHP: Symbol -> List GuessOption -> Record(degreeStream: Stream NonNegativeInteger, guessStream: UnivariateFormalPowerSeries Fraction Integer -> Stream UnivariateFormalPowerSeries Fraction Integer, guessModGen: NonNegativeInteger -> (List U32Vector, Integer, Integer) -> Vector U32Vector, testGen: List PositiveInteger -> UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger) -> Vector UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), exprStream: (Expression Integer, Symbol) -> Stream Expression Integer, kind: Symbol, qvar: Symbol, A: (NonNegativeInteger, NonNegativeInteger, SparseUnivariatePolynomial Integer) -> Integer, AF: (NonNegativeInteger, NonNegativeInteger, UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger)) -> SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), AX: (NonNegativeInteger, Symbol, Expression Integer) -> Expression Integer, C: NonNegativeInteger -> List Integer) if Integer has RetractableTo Symbol and Fraction Integer has RetractableTo Symbol
substHP: List GuessOption -> Record(degreeStream: Stream NonNegativeInteger, guessStream: UnivariateFormalPowerSeries Fraction Integer -> Stream UnivariateFormalPowerSeries Fraction Integer, guessModGen: NonNegativeInteger -> (List U32Vector, Integer, Integer) -> Vector U32Vector, testGen: List PositiveInteger -> UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger) -> Vector UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), exprStream: (Expression Integer, Symbol) -> Stream Expression Integer, kind: Symbol, qvar: Symbol, A: (NonNegativeInteger, NonNegativeInteger, SparseUnivariatePolynomial Integer) -> Integer, AF: (NonNegativeInteger, NonNegativeInteger, UnivariateFormalPowerSeries SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger)) -> SparseMultivariatePolynomial(Fraction Integer, NonNegativeInteger), AX: (NonNegativeInteger, Symbol, Expression Integer) -> Expression Integer, C: NonNegativeInteger -> List Integer)